CN206281129U - The compound dual temperature handpiece Water Chilling Units of sweat cooling - Google Patents
The compound dual temperature handpiece Water Chilling Units of sweat cooling Download PDFInfo
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- CN206281129U CN206281129U CN201621427318.9U CN201621427318U CN206281129U CN 206281129 U CN206281129 U CN 206281129U CN 201621427318 U CN201621427318 U CN 201621427318U CN 206281129 U CN206281129 U CN 206281129U
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- Devices For Blowing Cold Air, Devices For Blowing Warm Air, And Means For Preventing Water Condensation In Air Conditioning Units (AREA)
Abstract
The utility model is related to technical field of air conditioner refrigeration, it is a kind of compound dual temperature handpiece Water Chilling Units of sweat cooling, the compound dual temperature handpiece Water Chilling Units of the sweat cooling, including shell body, the first sweat cooling cooling water installations, the second sweat cooling cooling water installations, mechanical refrigeration cooling water installations and blower fan are provided with shell body.The utility model compact conformation, cold water is produced with reference to evaporation-cooled device and mechanical refrigeration cooling water installations, the cold water that the cold water that first sweat cooling cooling water installations, the second sweat cooling cooling water installations are produced is produced with mechanical refrigeration cooling water installations is not mixed, thus the losses by mixture that two bursts of cold water mix are caused is solved the problems, such as, there is refrigerated energy-saving, defer to cascaded utilization of energy, high temperature is to high temperature heat transfer, low temperature to the principle of cryogenic heat transfer, maximized utilization regenerative resource, reaches the purpose of energy-conserving and environment-protective.
Description
Technical field
The utility model is related to technical field of air conditioner refrigeration, is a kind of compound dual temperature handpiece Water Chilling Units of sweat cooling.
Background technology
Dry air energy sweat cooling technology has been a highly developed technology, has had very wide in Arid Area
General application;But in some partial desiccations area, although also there is an application, but the effect of application and bad, and initial cost compared with
Greatly;The reason in view of the above, the air-conditioning technical application that sweat cooling technology is combined with mechanical refrigeration techniques and give birth to, this two
The combination species of the technology of kind is more, and one kind is to set two systems within air-conditioning systems, when outdoor climate conditions are relatively good
When, using sweat cooling technology, when that can not meet, mechanical refrigeration supplement cooling, this kind of mode reaches to a certain extent
Energy-saving run has been arrived, but initial cost is larger, and it is more long that investment reclaims it;Second application mode is partly to set within air-conditioning systems
Dry air energy sweat cooling equipment is put, then a part of mechanical refrigeration is set, cold water prepared by mechanical refrigeration is produced with sweat cooling
Cold water mixed, the low-temperature cold water needed for obtaining air-conditioning system, this kind empty topic systematic comparison is complicated, and when two kinds of temperature difference
During larger cold water mix, it will produce larger losses by mixture, be unfavorable for energy-conservation.In addition, existing dry air energy sweat cooling
Equipment takes larger space with the integrated structure of mechanical refrigeration equipment.
The content of the invention
The utility model provides a kind of compound dual temperature handpiece Water Chilling Units of sweat cooling, overcome above-mentioned prior art no
Foot, when it can effectively solve existing dry air energy sweat cooling technology and mechanical refrigeration techniques and freezes jointly, high temperature cold water and low
There is losses by mixture in warm cold water mix.
The technical solution of the utility model is realized by following measures:A kind of sweat cooling is combined double-temperature cold water machine
Group, including shell body, be provided with shell body the first sweat cooling cooling water installations, the second sweat cooling cooling water installations,
Mechanical refrigeration cooling water installations and blower fan, the first sweat cooling cooling water installations and the second sweat cooling cooling water installations are located at machine
The both sides of tool refrigeration cooling water installations, are all provided with the first sweat cooling cooling water installations and the second sweat cooling cooling water installations
The air outlet communicated with the air inlet of blower fan is equipped with, is provided with shell body and the first sweat cooling cooling water installations and second
External air inlet port that the air inlet of sweat cooling cooling water installations is communicated and the outgoing tuyere communicated with the air outlet of blower fan.
Here is the further optimization and/or improvements to above-mentioned utility model technical scheme:
The delivery port of above-mentioned first sweat cooling cooling water installations or/and the second sweat cooling cooling water installations is made with machinery
The cooling-water duct import of the condenser of cold cooling water installations is connected, the cooling water of the condenser of mechanical refrigeration cooling water installations
Passage delivery port is connected with the water inlet of the first sweat cooling cooling water installations or/and the second sweat cooling cooling water installations.
The compound dual temperature handpiece Water Chilling Units of above-mentioned sweat cooling also include first user and second user, and first user and second are used
Cold water inlet and cold-water return mouthful, the first sweat cooling cooling water installations and the second sweat cooling cooling are respectively arranged with per family
Water-distributing device, filler and water tank are provided with from top to bottom in the housing of water installations, are set on the housing between filler and water tank
There is the air inlet communicated with external air inlet port, the air-out communicated with the air inlet of blower fan is provided with the housing above water-distributing device
Mouthful, mechanical refrigeration cooling water installations include evaporator and condenser, and refrigerant passage and cold water channel are provided with evaporator,
Refrigerant passage and cooling-water duct are provided with condenser, the refrigerant passage of evaporator is connected with the refrigerant passage of condenser,
The cold water channel outlet of evaporator is connected with the cold water inlet of first user by the first pipeline, and the cold water of first user goes out
The mouth of a river is connected with the cold water channel import of evaporator by the second pipeline, has in the cooling-water duct inlet communication of condenser
Three pipelines, the cold-water return mouthful of the 3rd pipeline and second user is connected, and has the in the cooling-water duct outlet of condenser
Four pipelines, the 4th pipeline is homogeneous with the water-distributing device of the first sweat cooling cooling water installations and the second sweat cooling cooling water installations
Connection, the water outlet of water tank of the first sweat cooling cooling water installations is connected with the cold water inlet of second user by the 5th pipeline
Logical, the water outlet of water tank of the first sweat cooling cooling water installations is connected with the 5th pipeline by the 6th pipeline, in the first pipeline
On be serially connected with the first water pump, be serially connected with the second water on the 5th pipeline between the 6th pipeline and the cold water inlet of second user
Pump;
Or, also including first user and second user, first user and second user are respectively provided with cold water water inlet
Mouth and cold-water return mouthful, the first water-distributing device, first are provided with the housing of the first sweat cooling cooling water installations from top to bottom
Filler and the first water tank, are provided with the housing of the first sweat cooling cooling water installations between the first filler and the first water tank
The first air inlet communicated with external air inlet port, on the housing of the first sweat cooling cooling water installations above the first water-distributing device
The first air outlet communicated with the air inlet of blower fan is provided with, the second sweat cooling cooling water installations include machine unit shell and surface
Formula heat exchanger, is provided with the second water-distributing device, the second filler and the second water tank, in the second filler from top to bottom in machine unit shell
With the second air inlet for being communicated with external air inlet port is provided with the machine unit shell between the second water tank, above the second water-distributing device
Machine unit shell on be provided with the second air outlet communicated with the air inlet of blower fan, cold water channel is provided with surface-type heat exchanger
And the cold air duct communicated with the second air inlet, surface-type heat exchanger is arranged on the second air inlet, mechanical refrigeration cooling water dress
Put including evaporator and condenser, refrigerant passage and cold water channel are provided with evaporator, refrigerant is provided with condenser
Passage and cooling-water duct, the refrigerant passage of evaporator are connected with the refrigerant passage of condenser, and the cold water channel of evaporator goes out
Mouthful it is connected by the first pipeline with the cold water inlet of first user, the cold water delivery port of first user and the cold water of evaporator
Channel entrance is connected by the second pipeline, has the 3rd pipeline in the cooling-water duct inlet communication of condenser, the 3rd pipeline with
The cold water channel outlet of surface-type heat exchanger is connected, and has the 4th pipeline, the 4th in the cooling-water duct outlet of condenser
Pipeline is connected with the water inlet of the first water-distributing device, the first water outlet of water tank of the first sweat cooling cooling water installations and surface
The cold water channel import of formula heat exchanger is connected by the 5th pipeline, the second water tank water outlet of the second sweat cooling cooling water installations
Mouth is connected with the cold water inlet of second user by the 6th pipeline, cold-water return mouthful and second water-distributing device of second user
Water inlet be connected by the 7th pipeline, the first water pump is serially connected with the first pipeline, be serially connected with the 3rd on the 5th pipeline
Water pump, the second water pump is serially connected with the 6th pipeline;
Or, also including first user and second user, first user and second user are respectively provided with cold water water inlet
Mouth and cold-water return mouthful, the first water-distributing device, first are provided with the housing of the first sweat cooling cooling water installations from top to bottom
Filler and the first water tank, are provided with the housing of the first sweat cooling cooling water installations between the first filler and the first water tank
The first air inlet communicated with external air inlet port, on the housing of the first sweat cooling cooling water installations above the first water-distributing device
The first air outlet communicated with the air inlet of blower fan is provided with, the second sweat cooling cooling water installations include machine unit shell and surface
Formula heat exchanger, is provided with the second water-distributing device, the second filler and the second water tank, in the second filler from top to bottom in machine unit shell
With the second air inlet for being communicated with external air inlet port is provided with the machine unit shell between the second water tank, above the second water-distributing device
Machine unit shell on be provided with the second air outlet communicated with the air inlet of blower fan, cold water channel is provided with surface-type heat exchanger
And the cold air duct communicated with the second air inlet, surface-type heat exchanger is arranged on the second air inlet, mechanical refrigeration cooling water dress
Put including evaporator and condenser, refrigerant passage and cold water channel are provided with evaporator, refrigerant is provided with condenser
Passage and cooling-water duct, the refrigerant passage of evaporator are connected with the refrigerant passage of condenser, and the cold water channel of evaporator goes out
Mouthful it is connected by the first pipeline with the cold water inlet of first user, the cold water delivery port of first user and the cold water of evaporator
Channel entrance is connected by the second pipeline, has the 3rd pipeline in the cooling-water duct inlet communication of condenser, in condenser
Cooling-water duct outlet has the 4th pipeline, and the 4th pipeline is connected with the water inlet of the first water-distributing device, the first evaporation system
First water outlet of water tank of cold cooling water installations is connected with the cold water channel import of surface-type heat exchanger by the 5th pipeline, the
Five pipelines are connected with the 3rd pipeline, and the cold water channel outlet that surface-type heat exchanger is set is led to the water inlet of the first water-distributing device
Cross the 6th pipeline to be connected, the second water outlet of water tank of the second sweat cooling cooling water installations and the cold water inlet of second user
It is connected by the 7th pipeline, the cold-water return mouthful of second user is connected with the water inlet of the second water-distributing device by the 8th pipeline
It is logical, the first water pump is serially connected with the first pipeline, the 3rd water pump is serially connected with the 5th pipeline, the is serially connected with the 7th pipeline
Two water pumps;
Or, also including first user and second user, first user and second user are respectively provided with cold water water inlet
Mouth and cold-water return mouthful, the first sweat cooling cooling water installations include the first housing and first surface formula heat exchanger, in first shell
The first water-distributing device, the first filler and the first water tank are provided with from top to bottom in vivo, between the first filler and the first water tank
The first air inlet communicated with external air inlet port is provided with first housing, is set on the first housing above the first water-distributing device
There is the first air outlet communicated with the air inlet of blower fan, the first cold water channel is provided with first surface formula heat exchanger and with first
The first cold air duct that air inlet is communicated, first surface formula heat exchanger is arranged on the first air inlet, the second sweat cooling cooling
Water installations include the second housing and second surface formula heat exchanger, be provided with from top to bottom in second shell body the second water-distributing device,
Second filler and the second water tank, are provided with what is communicated with external air inlet port on the second housing between the second filler and the second water tank
Second air inlet, is provided with the second air-out communicated with the air inlet of blower fan on the second housing above the second water-distributing device
Mouthful, the second cold water channel and the second cold air duct communicated with the second air inlet, second are provided with second surface formula heat exchanger
Surface-type heat exchanger is arranged on the second air inlet, and mechanical refrigeration cooling water installations include evaporator and condenser, in evaporator
Refrigerant passage and cold water channel are inside provided with, refrigerant passage and cooling-water duct, the refrigerant of evaporator are provided with condenser
Passage is connected with the refrigerant passage of condenser, and the cold water inlet of the outlet of the cold water channel of evaporator and first user is by the
One pipeline is connected, and the cold water delivery port of first user is connected with the cold water channel import of evaporator by the second pipeline,
The cooling-water duct inlet communication of condenser has the second cold water channel of the 3rd pipeline, the 3rd pipeline and second surface formula heat exchanger
Outlet is connected, and has the 4th pipeline in the cooling-water duct outlet of condenser, and the 4th pipeline enters with the first water-distributing device
The mouth of a river is connected, and the first water outlet of water tank is connected with the cold water channel import of second surface formula heat exchanger by the 5th pipeline,
Second water outlet of water tank is connected with the cold water inlet of second user by the 6th pipeline, the cold-water return of second user mouthful with
The cold water channel import of first surface formula heat exchanger is connected by the 7th pipeline, and the cold water channel of first surface formula heat exchanger goes out
Mouth is connected with the water inlet of the second water-distributing device by the 8th pipeline, the first water pump is serially connected with the first pipeline, the 5th
The 3rd water pump is serially connected with pipeline, the second water pump is serially connected with the 6th pipeline;
Or, also including first user and second user, first user and second user are respectively provided with cold water water inlet
Mouth and cold-water return mouthful, the first sweat cooling cooling water installations include the first housing and first surface formula heat exchanger, in first shell
The first water-distributing device, the first filler and the first water tank are provided with from top to bottom in vivo, between the first filler and the first water tank
The first air inlet communicated with external air inlet port is provided with first housing, is set on the first housing above the first water-distributing device
There is the first air outlet communicated with the air inlet of blower fan, the first cold water channel is provided with first surface formula heat exchanger and with first
The first cold air duct that air inlet is communicated, first surface formula heat exchanger is arranged on the first air inlet, the second sweat cooling cooling
Water installations include the second housing and second surface formula heat exchanger, be provided with from top to bottom in second shell body the second water-distributing device,
Second filler and the second water tank, are provided with what is communicated with external air inlet port on the second housing between the second filler and the second water tank
Second air inlet, is provided with the second air-out communicated with the air inlet of blower fan on the second housing above the second water-distributing device
Mouthful, the second cold water channel and the second cold air duct communicated with the second air inlet, second are provided with second surface formula heat exchanger
Surface-type heat exchanger is arranged on the second air inlet, and mechanical refrigeration cooling water installations include evaporator and condenser, in evaporator
Refrigerant passage and cold water channel are inside provided with, refrigerant passage and cooling-water duct, the refrigerant of evaporator are provided with condenser
Passage is connected with the refrigerant passage of condenser, and the cold water inlet of the outlet of the cold water channel of evaporator and first user is by the
One pipeline is connected, and the cold water delivery port of first user is connected with the cold water channel import of evaporator by the second pipeline,
The cooling-water duct inlet communication of condenser has the 3rd pipeline, and the 3rd pipeline is connected with the cold-water return mouthful of second user,
The cooling-water duct outlet of condenser has the 4th pipeline, and the 4th pipeline is connected with the water inlet of the second water-distributing device, the
One water outlet of water tank is connected with the cold water channel import of second surface formula heat exchanger by the 5th pipeline, the heat exchange of second surface formula
The cold water channel outlet of device is connected with the cold water channel import of first surface formula heat exchanger by the 6th pipeline, first surface formula
Heat exchanger cold water channel outlet be connected by the 7th pipeline with the water inlet of the first water-distributing device, the second water outlet of water tank and
The cold water inlet of second user is connected by the 8th pipeline, and the first water pump is serially connected with the first pipeline, in the 5th pipeline
On be serially connected with the 3rd water pump, be serially connected with the second water pump on the 8th pipeline;
Or, also including first user and second user, first user and second user are respectively provided with cold water water inlet
Mouth and cold-water return mouthful, the first sweat cooling cooling water installations include the first housing and first surface formula heat exchanger, in first shell
The first water-distributing device, the first filler and the first water tank are provided with from top to bottom in vivo, between the first filler and the first water tank
The first air inlet communicated with external air inlet port is provided with first housing, is set on the first housing above the first water-distributing device
There is the first air outlet communicated with the air inlet of blower fan, the first cold water channel is provided with first surface formula heat exchanger and with first
The first cold air duct that air inlet is communicated, first surface formula heat exchanger is arranged on the first air inlet, the second sweat cooling cooling
Water installations include the second housing and second surface formula heat exchanger, be provided with from top to bottom in second shell body the second water-distributing device,
Second filler and the second water tank, are provided with what is communicated with external air inlet port on the second housing between the second filler and the second water tank
Second air inlet, is provided with the second air-out communicated with the air inlet of blower fan on the second housing above the second water-distributing device
Mouthful, the second cold water channel and the second cold air duct communicated with the second air inlet, second are provided with second surface formula heat exchanger
Surface-type heat exchanger is arranged on the second air inlet, and mechanical refrigeration cooling water installations include evaporator and condenser, in evaporator
Refrigerant passage and cold water channel are inside provided with, refrigerant passage and cooling-water duct, the refrigerant of evaporator are provided with condenser
Passage is connected with the refrigerant passage of condenser, and the cold water inlet of the outlet of the cold water channel of evaporator and first user is by the
One pipeline is connected, and the cold water delivery port of first user is connected with the cold water channel import of evaporator by the second pipeline,
The cooling-water duct inlet communication of condenser has the 3rd pipeline, and the 3rd pipeline is connected with the cold-water return mouthful of second user,
The cooling-water duct outlet of condenser has the 4th pipeline, and the 4th pipeline and the first water-distributing device and the second water-distributing device enter
The mouth of a river is connected, and the first water outlet of water tank is connected with the cold water channel import of second surface formula heat exchanger by the 5th pipeline
Logical, cold water channel outlet and the cold water channel import of first surface formula heat exchanger of second surface formula heat exchanger pass through the 6th pipeline
It is connected, the cold water channel outlet of first surface formula heat exchanger passes through with the water inlet of the first water-distributing device and the second water-distributing device
7th pipeline is connected, and the second water outlet of water tank is connected with the 5th pipeline by the 8th pipeline, the first water outlet of water tank and
The cold water inlet of two users is connected by the 9th pipeline, and the second water outlet of water tank is connected with the 9th pipeline by the tenth pipeline
It is logical, the first water pump is serially connected with the first pipeline, between the cold water channel import of the 8th pipeline and second surface formula heat exchanger
The 5th pipeline on be serially connected with the 3rd water pump, on the 9th pipeline between the tenth pipeline and the cold water inlet of second user go here and there
It is connected to the second water pump;
Or, also respectively set including plate type heat exchanger, first user and second user, first user and second user
There is the housing of cold water inlet and cold-water return mouthful, the first sweat cooling cooling water installations and the second sweat cooling cooling water installations
Water-distributing device, filler and water tank are inside provided with from top to bottom, are provided with and external air inlet port on the housing between filler and water tank
The air inlet for communicating, is provided with the air outlet communicated with the air inlet of blower fan, mechanical refrigeration on the housing above water-distributing device
Cooling water installations include evaporator and condenser, and refrigerant passage and cold water channel are provided with evaporator, are set in condenser
Be equipped with refrigerant passage and cooling-water duct, the refrigerant passage of evaporator is connected with the refrigerant passage of condenser, evaporator it is cold
Aquaporin outlet is connected with the cold water inlet of first user by the first pipeline, cold water delivery port and the evaporation of first user
The cold water channel import of device is connected by the second pipeline, has the 3rd pipeline in the cooling-water duct inlet communication of condenser, the
Three pipelines are connected with the outlet of an aquaporin of plate type heat exchanger, have the 4th in the cooling-water duct outlet of condenser
Pipeline, the 4th pipeline is connected with the water-distributing device of the first sweat cooling cooling water installations and the second sweat cooling cooling water installations
Logical, the water outlet of water tank of the first sweat cooling cooling water installations is with an import for aquaporin of plate type heat exchanger by the 5th pipe
Line is connected, and the water outlet of water tank of the second sweat cooling cooling water installations is connected with the 5th pipeline by the 6th pipeline,
The first water pump is serially connected with one pipeline, the 5th pipeline between the 6th pipeline and an import for aquaporin of plate type heat exchanger
On be serially connected with the second water pump, the cold-water return mouthful of second user is connected with the secondary water passageway inlet of plate type heat exchanger, second
The cold water inlet of user is connected with the secondary water channel outlet of plate type heat exchanger.
Or, also respectively set including plate type heat exchanger, first user and second user, first user and second user
There are cold water inlet and cold-water return mouthful, the first water distribution is provided with from top to bottom in the housing of the first sweat cooling cooling water installations
Device, the first filler and the first water tank, the shell of the first sweat cooling cooling water installations between the first filler and the first water tank
The first air inlet communicated with external air inlet port is provided with body, the first sweat cooling cooling water dress above the first water-distributing device
The first air outlet communicated with the air inlet of blower fan is provided with the housing put, the second sweat cooling cooling water installations include unit
Housing and surface-type heat exchanger, are provided with the second water-distributing device, the second filler and the second water tank from top to bottom in machine unit shell,
The second air inlet communicated with external air inlet port is provided with machine unit shell between the second filler and the second water tank, in the second cloth
It is provided with machine unit shell above water installations in the second air outlet communicated with the air inlet of blower fan, surface-type heat exchanger and is set
There are cold water channel and the cold air duct communicated with the second air inlet, surface-type heat exchanger is arranged on the second air inlet, machinery system
Cold cooling water installations include evaporator and condenser, refrigerant passage and cold water channel are provided with evaporator, in condenser
Refrigerant passage and cooling-water duct are provided with, the refrigerant passage of evaporator is connected with the refrigerant passage of condenser, evaporator
Cold water channel outlet is connected with the cold water inlet of first user by the first pipeline, cold water delivery port and the steaming of first user
The cold water channel import for sending out device is connected by the second pipeline, has the 3rd pipeline in the cooling-water duct inlet communication of condenser,
3rd pipeline is connected with the cold water channel outlet of surface-type heat exchanger, has the 4th in the cooling-water duct outlet of condenser
Pipeline, the 4th pipeline is connected with the water inlet of the first water-distributing device, and the first water tank of the first sweat cooling cooling water installations goes out
The mouth of a river is connected with the cold water channel import of surface-type heat exchanger by the 5th pipeline, and the of the second sweat cooling cooling water installations
Two water outlet of water tank are connected with a water passageway inlet of plate type heat exchanger by the 6th pipeline, a water of plate type heat exchanger
Channel outlet is connected with the water inlet of the second water-distributing device by the 7th pipeline, and the first water pump is serially connected with the first pipeline,
Be serially connected with the 3rd water pump on the 5th pipeline, be serially connected with the second water pump on the 6th pipeline, the cold-water return mouthful of second user with
The secondary water passageway inlet of plate type heat exchanger is connected, the cold water inlet of second user and the secondary aquaporin of plate type heat exchanger
Outlet is connected;
Or, also respectively set including plate type heat exchanger, first user and second user, first user and second user
There are cold water inlet and cold-water return mouthful, the first water distribution is provided with from top to bottom in the housing of the first sweat cooling cooling water installations
Device, the first filler and the first water tank, the shell of the first sweat cooling cooling water installations between the first filler and the first water tank
The first air inlet communicated with external air inlet port is provided with body, the first sweat cooling cooling water dress above the first water-distributing device
The first air outlet communicated with the air inlet of blower fan is provided with the housing put, the second sweat cooling cooling water installations include unit
Housing and surface-type heat exchanger, are provided with the second water-distributing device, the second filler and the second water tank from top to bottom in machine unit shell,
The second air inlet communicated with external air inlet port is provided with machine unit shell between the second filler and the second water tank, in the second cloth
It is provided with machine unit shell above water installations in the second air outlet communicated with the air inlet of blower fan, surface-type heat exchanger and is set
There are cold water channel and the cold air duct communicated with the second air inlet, surface-type heat exchanger is arranged on the second air inlet, machinery system
Cold cooling water installations include evaporator and condenser, refrigerant passage and cold water channel are provided with evaporator, in condenser
Refrigerant passage and cooling-water duct are provided with, the refrigerant passage of evaporator is connected with the refrigerant passage of condenser, evaporator
Cold water channel outlet is connected with the cold water inlet of first user by the first pipeline, cold water delivery port and the steaming of first user
The cold water channel import for sending out device is connected by the second pipeline, has the 3rd pipeline in the cooling-water duct inlet communication of condenser,
There is the 4th pipeline in the cooling-water duct outlet of condenser, the 4th pipeline is connected with the water inlet of the first water-distributing device,
First water outlet of water tank of the first sweat cooling cooling water installations is with the cold water channel import of surface-type heat exchanger by the 5th pipe
Line is connected, and the 5th pipeline is connected with the 3rd pipeline, and cold water channel outlet and the first water distribution that surface-type heat exchanger is set are filled
The water inlet put is connected by the 6th pipeline, second water outlet of water tank and plate-type heat-exchange of the second sweat cooling cooling water installations
Water passageway inlet of device is connected by the 7th pipeline, the outlet of an aquaporin and second water-distributing device of plate type heat exchanger
Water inlet be connected by the 8th pipeline, the first water pump is serially connected with the first pipeline, be serially connected with the 3rd on the 5th pipeline
Water pump, is serially connected with the second water pump, the cold-water return mouthful of second user and the secondary aquaporin of plate type heat exchanger on the 7th pipeline
Import is connected, and the cold water inlet of second user is connected with the secondary water channel outlet of plate type heat exchanger;
Or, also respectively set including plate type heat exchanger, first user and second user, first user and second user
There are cold water inlet and cold-water return mouthful, the first sweat cooling cooling water installations include that the first housing and first surface formula exchange heat
Device, is provided with the first water-distributing device, the first filler and the first water tank, in the first filler and first from top to bottom in first shell body
The first air inlet communicated with external air inlet port, above the first water-distributing device first are provided with the first housing between water tank
The first air outlet communicated with the air inlet of blower fan is provided with housing, the first cold water is provided with first surface formula heat exchanger and is led to
Road and the first cold air duct communicated with the first air inlet, first surface formula heat exchanger are arranged on the first air inlet, and second steams
Hair refrigeration cooling water installations include the second housing and second surface formula heat exchanger, and second is provided with from top to bottom in second shell body
Water-distributing device, the second filler and the second water tank, are provided with the second housing between the second filler and the second water tank and enter outward
The second air inlet that air port communicates, is provided with what is communicated with the air inlet of blower fan on the second housing above the second water-distributing device
Second air outlet, the second cold wind for the second cold water channel being provided with second surface formula heat exchanger and being communicated with the second air inlet leads to
Road, second surface formula heat exchanger is arranged on the second air inlet, and mechanical refrigeration cooling water installations include evaporator and condenser,
Refrigerant passage and cold water channel are provided with evaporator, refrigerant passage and cooling-water duct, evaporator are provided with condenser
Refrigerant passage be connected with the refrigerant passage of condenser, the cold water inlet of the outlet of the cold water channel of evaporator and first user
It is connected by the first pipeline, the cold water channel outlet of evaporator is connected with the cold water inlet of first user by the first pipeline
Logical, the cold water delivery port of first user is connected with the cold water channel import of evaporator by the second pipeline, in the cold of condenser
But water passageway inlet is communicated with the 3rd pipeline, and the 3rd pipeline is connected with the second cold water channel outlet of second surface formula heat exchanger
It is logical, there is the 4th pipeline in the cooling-water duct outlet of condenser, the 4th pipeline is connected with the water inlet of the first water-distributing device
Logical, the first water outlet of water tank is connected with the cold water channel import of second surface formula heat exchanger by the 5th pipeline, the second water tank
Delivery port is connected with a water passageway inlet of plate type heat exchanger by the 6th pipeline, and an aquaporin of plate type heat exchanger goes out
Mouth is connected with the cold water channel import of first surface formula heat exchanger by the 7th pipeline, and the cold water of first surface formula heat exchanger leads to
Road outlet is connected with the water inlet of the second water-distributing device by the 8th pipeline, and the first water pump is serially connected with the first pipeline,
The 3rd water pump is serially connected with 5th pipeline, the second water pump, the cold-water return mouthful and plate of second user are serially connected with the 6th pipeline
The secondary water passageway inlet of formula heat exchanger is connected, and the cold water inlet of second user goes out with the secondary aquaporin of plate type heat exchanger
Mouth is connected;
Or, also respectively set including plate type heat exchanger, first user and second user, first user and second user
There are cold water inlet and cold-water return mouthful, the first sweat cooling cooling water installations include that the first housing and first surface formula exchange heat
Device, is provided with the first water-distributing device, the first filler and the first water tank, in the first filler and first from top to bottom in first shell body
The first air inlet communicated with external air inlet port, above the first water-distributing device first are provided with the first housing between water tank
The first air outlet communicated with the air inlet of blower fan is provided with housing, the first cold water is provided with first surface formula heat exchanger and is led to
Road and the first cold air duct communicated with the first air inlet, first surface formula heat exchanger are arranged on the first air inlet, and second steams
Hair refrigeration cooling water installations include the second housing and second surface formula heat exchanger, and second is provided with from top to bottom in second shell body
Water-distributing device, the second filler and the second water tank, are provided with the second housing between the second filler and the second water tank and enter outward
The second air inlet that air port communicates, is provided with what is communicated with the air inlet of blower fan on the second housing above the second water-distributing device
Second air outlet, the second cold wind for the second cold water channel being provided with second surface formula heat exchanger and being communicated with the second air inlet leads to
Road, second surface formula heat exchanger is arranged on the second air inlet, and mechanical refrigeration cooling water installations include evaporator and condenser,
Refrigerant passage and cold water channel are provided with evaporator, refrigerant passage and cooling-water duct, evaporator are provided with condenser
Refrigerant passage be connected with the refrigerant passage of condenser, the cold water inlet of the outlet of the cold water channel of evaporator and first user
It is connected by the first pipeline, the cold water delivery port of first user is connected with the cold water channel import of evaporator by the second pipeline
It is logical, there is the 3rd pipeline in the cooling-water duct inlet communication of condenser, the 3rd pipeline goes out with an aquaporin of plate type heat exchanger
Mouth is connected, and has the 4th pipeline, the water inlet of the 4th pipeline and the second water-distributing device in the cooling-water duct outlet of condenser
Mouth is connected, and the first water outlet of water tank is connected with the cold water channel import of second surface formula heat exchanger by the 5th pipeline, the
The cold water channel outlet of two surface-type heat exchangers is connected with the cold water channel import of first surface formula heat exchanger by the 6th pipeline
Logical, the cold water channel outlet of first surface formula heat exchanger is connected with the water inlet of the first water-distributing device by the 7th pipeline, the
Two water outlet of water tank are connected with a water passageway inlet of plate type heat exchanger by the 8th pipeline, are serially connected with the first pipeline
First water pump, the 3rd water pump is serially connected with the 5th pipeline, and the second water pump, the cold water of second user are serially connected with the 8th pipeline
Water return outlet is connected with the secondary water passageway inlet of plate type heat exchanger, the cold water inlet of second user and the two of plate type heat exchanger
Secondary aquaporin outlet is connected;
Or, also respectively set including plate type heat exchanger, first user and second user, first user and second user
There are cold water inlet and cold-water return mouthful, the first sweat cooling cooling water installations include that the first housing and first surface formula exchange heat
Device, is provided with the first water-distributing device, the first filler and the first water tank, in the first filler and first from top to bottom in first shell body
The first air inlet communicated with external air inlet port, above the first water-distributing device first are provided with the first housing between water tank
The first air outlet communicated with the air inlet of blower fan is provided with housing, the first cold water is provided with first surface formula heat exchanger and is led to
Road and the first cold air duct communicated with the first air inlet, first surface formula heat exchanger are arranged on the first air inlet, and second steams
Hair refrigeration cooling water installations include the second housing and second surface formula heat exchanger, and second is provided with from top to bottom in second shell body
Water-distributing device, the second filler and the second water tank, are provided with the second housing between the second filler and the second water tank and enter outward
The second air inlet that air port communicates, is provided with what is communicated with the air inlet of blower fan on the second housing above the second water-distributing device
Second air outlet, the second cold wind for the second cold water channel being provided with second surface formula heat exchanger and being communicated with the second air inlet leads to
Road, second surface formula heat exchanger is arranged on the second air inlet, and mechanical refrigeration cooling water installations include evaporator and condenser,
Refrigerant passage and cold water channel are provided with evaporator, refrigerant passage and cooling-water duct, evaporator are provided with condenser
Refrigerant passage be connected with the refrigerant passage of condenser, the cold water inlet of the outlet of the cold water channel of evaporator and first user
It is connected by the first pipeline, the cold water delivery port of first user is connected with the cold water channel import of evaporator by the second pipeline
It is logical, there is the 3rd pipeline in the cooling-water duct inlet communication of condenser, the 3rd pipeline goes out with an aquaporin of plate type heat exchanger
Mouth is connected, and has the 4th pipeline, the 4th pipeline and the first water-distributing device and second in the cooling-water duct outlet of condenser
The water inlet of water-distributing device is connected, and the cold water channel import of the first water outlet of water tank and second surface formula heat exchanger is by the
Five pipelines are connected, and cold water channel outlet and the cold water channel import of first surface formula heat exchanger of second surface formula heat exchanger are led to
The 6th pipeline is crossed to be connected, the outlet of the cold water channel of first surface formula heat exchanger and the first water-distributing device and the second water-distributing device
Water inlet is connected by the 7th pipeline, and the second water outlet of water tank is connected with the 5th pipeline by the 8th pipeline, the first water tank
Delivery port is connected with a water passageway inlet of plate type heat exchanger by the 9th pipeline, the first water outlet of water tank and the 9th pipeline
It is connected by the tenth pipeline, the first water pump is serially connected with the first pipeline, in the 8th pipeline and second surface formula heat exchanger
The 3rd water pump is serially connected with the 5th pipeline between cold water channel import, in the tenth pipeline and an aquaporin of plate type heat exchanger
The second water pump is serially connected with the 9th pipeline between import, the cold-water return mouthful of second user is led to the secondary water of plate type heat exchanger
Road import is connected, and the cold water inlet of second user is connected with the secondary water channel outlet of plate type heat exchanger.
The quantity of above-mentioned mechanical refrigeration cooling water installations is two or more, and more than two mechanical refrigeration cooling water installations set
Put between the first sweat cooling cooling water installations, the second sweat cooling cooling water installations, first mechanical refrigeration cooling water dress
The cooling-water duct import of the condenser put is connected with the 3rd pipeline, the condenser of last mechanical refrigeration cooling water installations
Cooling-water duct outlet be connected with the 4th pipeline, the cooling-water duct phase of the condenser of all mechanical refrigeration cooling water installations
Mutually series connection, the outlet of the cold water channel of the evaporator of all mechanical refrigeration cooling water installations is led to the cold water inlet of first user
Cross the first pipeline to be connected, the import of the cold water channel of the evaporator of all mechanical refrigeration cooling water installations is cold with first user
Water water return outlet is connected by the second pipeline, the pipe in the cold water channel exit of the evaporator of all mechanical refrigeration cooling water installations
Line is arranged in parallel in the cold water inlet of first user, the cold water channel import of the evaporator of all mechanical refrigeration cooling water installations
The pipeline at place is arranged in parallel in the cold-water return mouthful of first user.
The quantity of above-mentioned blower fan is more than one.
The utility model compact conformation, cold water, first are produced with reference to evaporation-cooled device and mechanical refrigeration cooling water installations
What the cold water and mechanical refrigeration cooling water installations that sweat cooling cooling water installations, the second sweat cooling cooling water installations are produced were produced
Cold water is not mixed, and thus solves the problems, such as the losses by mixture that two bursts of cold water mix are caused, and has the advantages that refrigerated energy-saving,
Defer to cascaded utilization of energy, high temperature to high temperature heat transfer, low temperature to the principle of cryogenic heat transfer, maximized utilization regenerative resource,
Reach the purpose of energy-conserving and environment-protective;In addition, mechanical refrigeration cooling water installations are arranged at the first sweat cooling cooling water installations and second
Structure between sweat cooling cooling water installations, organically one is attached to by evaporation-cooled device and mechanical refrigeration cooling water installations
Rise, can cause that the compound dual temperature handpiece Water Chilling Units of whole sweat cooling are compacter, not in the spatial area that extra occupancy is indoor;
Indoor end uses the low-temperature cold water of mechanical refrigeration, it is ensured that indoor temperature and humidity;Air-conditioning system humiture is realized independently to control
System, reaches the energy-conservation of air-conditioning system.
Brief description of the drawings
Accompanying drawing 1 is the main structure diagram of the utility model embodiment 1.
Accompanying drawing 2 is the process chart of the utility model embodiment 2.
Accompanying drawing 3 is the process chart of the utility model embodiment 3.
Accompanying drawing 4 is the process chart of the utility model embodiment 4.
Accompanying drawing 5 is the process chart of the utility model embodiment 5.
Accompanying drawing 6 is the process chart of the utility model embodiment 6.
Accompanying drawing 7 is the process chart of the utility model embodiment 7.
Accompanying drawing 8 is the process chart of the utility model embodiment 8.
Accompanying drawing 9 is the process chart of the utility model embodiment 9.
Accompanying drawing 10 is the process chart of the utility model embodiment 10.
Accompanying drawing 11 is the process chart of the utility model embodiment 11.
Accompanying drawing 12 is the process chart of the utility model embodiment 12.
Accompanying drawing 13 is the process chart of the utility model embodiment 13.
Coding in accompanying drawing is respectively:1 is the first sweat cooling cooling water installations, and 2 fill for the second sweat cooling cooling water
Put, 3 is mechanical refrigeration cooling water installations, and 4 is blower fan, and 5 is first user, and 6 is second user, and 7 is water-distributing device, and 8 is filler,
9 is water tank, and 10 is air inlet, and 11 is evaporator, and 12 is condenser, and 13 is the first pipeline, and 14 is the second pipeline, and 15 is the 3rd pipe
Line, 16 is the 4th pipeline, and 17 is the 5th pipeline, and 18 is the 6th pipeline, and 19 is the first water pump, and 20 is the second water pump, and 21 is first
Water-distributing device, 22 is the first filler, and 23 is the first water tank, and 24 is the first air inlet, and 25 is machine unit shell, and 26 exchange heat for surface-type
Device, 27 is the second water-distributing device, and 28 is the second filler, and 29 is the second water tank, and 30 is the second air inlet, and 31 is the 7th pipeline, 32
It is the 8th pipeline, 33 is the 3rd water pump, 34 is the first housing, 35 is first surface formula heat exchanger, 36 is the second housing, 37 is the
Two surface-type heat exchangers, 38 is the 9th pipeline, and 39 is the tenth pipeline, and 40 is plate type heat exchanger.
Specific embodiment
The utility model is not limited by following embodiments, can according to the technical solution of the utility model and actual conditions come
Determine specific embodiment;At this using in new, unless otherwise instructed, device or equipment are respectively for existing public
Device or equipment, such as evaporation-cooled device is the evaporation-cooled device in existing known technology.
In the utility model, for the ease of description, the description of the relative position relation of each part is according to specification
The Butut mode of accompanying drawing 1 is described, such as:The position relationship of forward and backward, upper and lower, left and right etc. is according to Figure of description 1
Butut direction determine.
The utility model is further described with reference to embodiment:
Embodiment 1:As shown in figure 1, the compound dual temperature handpiece Water Chilling Units of the sweat cooling, including shell body, set in shell body
It is equipped with the first sweat cooling cooling water installations 1, the second sweat cooling cooling water installations 2, mechanical refrigeration cooling water installations 3 and blower fan
4, the first sweat cooling cooling water installations 1 and the second sweat cooling cooling water installations 2 are located at the two of mechanical refrigeration cooling water installations 3
Side, is provided with the air intake with blower fan 4 in the first sweat cooling cooling water installations 1 and the second sweat cooling cooling water installations 2
The air outlet that mouth is communicated, is provided with and the first sweat cooling cooling water installations 1 and the second sweat cooling cooling water on shell body
External air inlet port that the air inlet of device 2 is communicated and the outgoing tuyere communicated with the air outlet of blower fan 4.
In the present embodiment, mechanical refrigeration cooling water installations 3 are the water-cooled mechanical refrigeration cooling water in existing known technology
Device cooling water installations.
When being combined dual temperature handpiece Water Chilling Units using the sweat cooling described in the present embodiment, the first sweat cooling cooling water installations 1
Or second the cold water produced of sweat cooling cooling water installations 2 first as user or equipment(Surface-type heat exchanger 26 or plate-type heat-exchange
Device 40)High temperature cold water, take away the heat of user or equipment, be then re-used as cooling water, take away mechanical refrigeration cooling water installations 3
In condenser 12 heat, realize the cascade utilization of energy, the principle of Optimized Matching so that the maximized release of cold,
High temperature cold water after the condenser 12 of cooling mechanical refrigeration cooling water installations 3 return the first sweat cooling cooling water installations 1 or/
Recycled with the second sweat cooling cooling water installations 2;Or, the cold water one that the first sweat cooling cooling water installations 1 are produced
Part is used as user or equipment(Surface-type heat exchanger 26 or plate type heat exchanger 40)High temperature cold water, take away the heat of user or equipment
Amount, another part takes away the condenser in mechanical refrigeration cooling water installations 3 as the cooling water of mechanical refrigeration cooling water installations 3
12 heat, so, mechanical refrigeration cooling water installations 3 can be using the first sweat cooling cooling water installations 1 or/and the second evaporation
The cold that refrigeration cooling water installations 2 are produced produces the lower cold water of temperature;The profit of evaporator 11 in mechanical refrigeration cooling water installations 3
The cold produced with the first sweat cooling cooling water installations 1 or/and the second sweat cooling cooling water installations 2 is other user's system
Take low-temperature cold water;
From the foregoing, this sweat cooling compound dual temperature handpiece Water Chilling Units combination evaporation-cooled device and mechanical refrigeration cooling water
Device 3 produces cold water, the cold water that the first sweat cooling cooling water installations 1, the second sweat cooling cooling water installations 2 are produced with machinery
The cold water that refrigeration cooling water installations 3 are produced is not mixed, and thus solves asking for the losses by mixture that two bursts of cold water mix are caused
Topic, has the advantages that refrigerated energy-saving, defers to cascaded utilization of energy, high temperature to high temperature heat transfer, low temperature to the principle of cryogenic heat transfer, most
The utilization regenerative resource of bigization, reaches the purpose of energy-conserving and environment-protective.
In addition, mechanical refrigeration cooling water installations 3 are arranged at the first sweat cooling cooling water installations 1 and the second sweat cooling is supplied
Structure between water-cooling device 2, evaporation-cooled device and mechanical refrigeration cooling water installations 3 are organically combined, can be with
So that the whole compound dual temperature handpiece Water Chilling Units structure of sweat cooling is compacter, not in the spatial area that extra occupancy is indoor.
First sweat cooling cooling water installations, the second sweat cooling cooling water installations are filled for direct sweat cooling cooling water
Put, such as cooling tower;Or, the first sweat cooling cooling water installations, the second sweat cooling cooling water installations are supplied for indirect evaporation refrigerating
Water-cooling device, such as indirect evaporation water chiller.
The compound dual temperature handpiece Water Chilling Units of above-mentioned sweat cooling can be made further optimization and/or improvements according to actual needs:
As shown in accompanying drawing 2 to accompanying drawing 13, the first sweat cooling cooling water installations 1 or/and the second sweat cooling cooling water are filled
The delivery port for putting 2 is connected with the cooling-water duct import of the condenser of mechanical refrigeration cooling water installations 3, mechanical refrigeration cooling water
The cooling-water duct delivery port of the condenser of device 3 and the first sweat cooling cooling water installations 1 or/and the second sweat cooling cooling
The water inlet of water installations 2 is connected.
Embodiment 2:As shown in Fig. 2 used as the optimization of embodiment 1, the compound dual temperature handpiece Water Chilling Units of the sweat cooling also include
First user 5 and second user 6, first user 5 and second user 6 are respectively provided with cold water inlet and cold-water return mouthful,
Water distribution dress is provided with the housing of the first sweat cooling cooling water installations 1 and the second sweat cooling cooling water installations 2 from top to bottom
7, filler 8 and water tank 9 are put, the air inlet 10 communicated with external air inlet port is provided with the housing between filler 8 and water tank 9,
The air outlet communicated with the air inlet of blower fan 4 is provided with the housing of the top of water-distributing device 7, mechanical refrigeration cooling water installations 3 are wrapped
Evaporator 11 and condenser 12 are included, refrigerant passage and cold water channel are provided with evaporator 11, be provided with condenser 12
Refrigerant passage and cooling-water duct, the refrigerant passage of evaporator 11 are connected with the refrigerant passage of condenser 12, evaporator 11
Cold water channel outlet is connected with the cold water inlet of first user 5 by the first pipeline 13, the cold water delivery port of first user 5
Cold water channel import with evaporator 11 is connected by the second pipeline 14, is had in the cooling-water duct inlet communication of condenser 12
3rd pipeline 15, the 3rd pipeline 15 is connected with the cold-water return mouthful of second user 6, is exported in the cooling-water duct of condenser 12
It is communicated with the 4th pipeline 16, the 4th pipeline 16 and the first sweat cooling cooling water installations 1 and the second sweat cooling cooling water installations 2
Water-distributing device 7 be connected, the delivery port of water tank 9 of the first sweat cooling cooling water installations 1 is intake with the cold water of second user 6
Mouthful it is connected by the 5th pipeline 17, the delivery port of water tank 9 of the first sweat cooling cooling water installations 2 and the 5th pipeline 17 pass through the
Six pipelines 18 are connected, and the first water pump 19 is serially connected with the first pipeline 13, enter in the 6th pipeline 18 and the cold water of second user 6
The second water pump 20 is serially connected with the 5th pipeline 17 between the mouth of a river.
Water in the water tank 9 of the sweat cooling cooling water installations 2 of water tank 9 and first of the first sweat cooling cooling water installations 1
High temperature cold water is delivered to by second user 6 by the second water pump 20, the heat of second user 6 is taken away, after second user 6
Water is entered in the cooling-water duct of condenser 12 of mechanical refrigeration cooling water installations 3 by the 3rd pipeline 15, takes away condenser 12
Heat, is returned to by the water after the cooling-water duct of condenser 12 of mechanical refrigeration cooling water installations 3 finally by the 4th pipeline 16
In water-distributing device 7, by spray, water enters respective filler 8, is filled with the first sweat cooling cooling water is entered by air inlet 10
Put 1 or second the air of sweat cooling cooling water installations 2 carry out heat exchange, produce high temperature cold water, the high temperature cold water of preparation falls into
In respective water tank 9, circulation is formed;Low-temperature cold water prepared by the evaporator 11 of mechanical refrigeration cooling water installations 3 passes through the first water
Pump 19 is delivered to first user 5, takes away the heat of first user 5, then returns the evaporator of mechanical refrigeration cooling water installations 3
In 11.
The high temperature that the first sweat cooling cooling water installations 1 and the second sweat cooling cooling water installations 2 are produced in the present embodiment
Cold water first provides cold to second user 6, is then used further to the cooling of condenser 12, finally returns and recycle in water tank 9;
Low-temperature cold water is circulated between first user 5 and evaporator 11, i.e., high temperature cold water is not mixed with low-temperature cold water, is thus avoided
Losses by mixture, and realize the cascade utilization of energy, the principle of Optimized Matching so that the maximized release of cold.
Embodiment 3:As shown in figure 3, as the optimization of embodiment 1, the difference with embodiment 2 is, the evaporation system
Cold compound dual temperature handpiece Water Chilling Units also include first user 5 and second user 6, and first user 5 and second user 6 are respectively provided with
Cold water inlet and cold-water return mouthful, the first water distribution is provided with the housing of the first sweat cooling cooling water installations 1 from top to bottom
Device 21, the first filler 22 and the first water tank 23, the first sweat cooling cooling between the first filler 22 and the first water tank 23
The first air inlet 24 communicated with external air inlet port is provided with the housing of water installations 1, the first of the top of the first water-distributing device 21
The first air outlet communicated with the air inlet of blower fan 4, the second sweat cooling are provided with the housing of sweat cooling cooling water installations 1
Cooling water installations 2 include machine unit shell 25 and surface-type heat exchanger 26, and the second cloth is provided with from top to bottom in machine unit shell 25
Water installations 27, the second filler 28 and the second water tank 29, set on the machine unit shell 25 between the second filler 28 and the second water tank 29
The second air inlet 30 communicated with external air inlet port is equipped with, is provided with and wind on the machine unit shell 25 of the top of the second water-distributing device 27
The second air outlet that the air inlet of machine 4 is communicated, be provided with surface-type heat exchanger 26 cold water channel and with the phase of the second air inlet 30
Logical cold air duct, surface-type heat exchanger 26 is arranged at the second air inlet 30, and mechanical refrigeration cooling water installations 3 include evaporator
11 and condenser 12, refrigerant passage and cold water channel are provided with evaporator 11, it is provided with refrigerant passage in condenser 12
And cooling-water duct, the refrigerant passage of evaporator 11 is connected with the refrigerant passage of condenser 12, the cold water channel of evaporator 11
Outlet is connected with the cold water inlet of first user 5 by the first pipeline 13, the cold water delivery port and evaporator of first user 5
11 cold water channel import is connected by the second pipeline 14, has the 3rd pipeline in the cooling-water duct inlet communication of condenser 12
15, the 3rd pipeline 15 is connected with the cold water channel outlet of surface-type heat exchanger 26, is exported in the cooling-water duct of condenser 12
The 4th pipeline 16 is communicated with, the 4th pipeline 16 is connected with the water inlet of the first water-distributing device 21, the first sweat cooling cooling water
The delivery port of first water tank 23 of device is connected with the cold water channel import of surface-type heat exchanger 26 by the 5th pipeline 17, and second
The delivery port of second water tank 29 of sweat cooling cooling water installations 2 passes through the phase of the 6th pipeline 18 with the cold water inlet of second user 6
Connection, the cold-water return mouthful of second user 6 is connected with the water inlet of the second water-distributing device 27 by the 7th pipeline 31, first
The first water pump 19 is serially connected with pipeline 13, the 3rd water pump 33 is serially connected with the 5th pipeline 17, be serially connected with the 6th pipeline 18
Second water pump 20.
High temperature cold water in first water tank 23 first passes through the first water pump 19 and the 5th pipeline 17 enters the heat exchange of second surface formula
In device 37, the air that cooling enters in the second sweat cooling cooling water installations 2 is passed through by the water of second surface formula heat exchanger 37
3rd pipeline 15 enters the cooling-water duct of condenser 12, takes away the heat of condenser 12, leads to from the interior water out of condenser 12
Cross during the 4th pipeline 16 returns to the first water-distributing device 21, on last Water spray to the first filler 22, heat is carried out with the air for entering
Mass transter, prepares cold water and returns to and recycle in the first water tank 23;Cold water in second water tank 29 passes through the He of the second water pump 20
6th pipeline 18 is sent in second user 6, is returned to after the heat for taking away second user 6 in second water-distributing device 27, and last water sprays
Pour on the second filler 28, carry out caloic and exchange with the air for entering, prepare cold water and return to and recycle in the second water tank 29.
In the present embodiment, the high temperature cold water that the first sweat cooling cooling water installations 1 are produced first gives second surface formula heat exchanger
37 provide colds, are then used further to the cooling of condenser 12, finally return and recycle in the first water tank 23;Second evaporation system
The cold water that cold cooling water installations 2 are produced first provides cold for second user 6, returns and recycle in the second water tank 29;
Low-temperature cold water is circulated between first user 5 and evaporator 11, i.e., high temperature cold water is not mixed with low-temperature cold water,
Thus avoid losses by mixture, and realize the cascade utilization of energy, the principle of Optimized Matching so that cold is maximized to be released
Put.
Embodiment 4:As shown in figure 4, as the optimization of embodiment 1, be with embodiment 2 to the difference of embodiment 3,
The compound dual temperature handpiece Water Chilling Units of the sweat cooling also include first user 5 and second user 6, and first user 5 and second user 6 are divided equally
Cold water inlet and cold-water return mouthful are not provided with, are provided with from top to bottom in the housing of the first sweat cooling cooling water installations 1
First water-distributing device 21, the first filler 22 and the first water tank 23, the first evaporation between the first filler 22 and the first water tank 23
The first air inlet 24 communicated with external air inlet port is provided with the housing of refrigeration cooling water installations 1, on the first water-distributing device 21
The first air outlet communicated with the air inlet of blower fan 4, second are provided with the housing of the first sweat cooling cooling water installations 1 of side
Sweat cooling cooling water installations 2 include machine unit shell 25 and surface-type heat exchanger 26, are set from top to bottom in machine unit shell 25
There are the second water-distributing device 27, the second filler 28 and the second water tank 29, the unit shell between the second filler 28 and the second water tank 29
The second air inlet 30 communicated with external air inlet port is provided with body 25, is set on the machine unit shell 25 of the top of the second water-distributing device 27
It is equipped with the second air outlet communicated with the air inlet of blower fan 4, surface-type heat exchanger 26 and is provided with cold water channel and enters with second
The cold air duct that air port 30 communicates, surface-type heat exchanger 26 is arranged at the second air inlet 30, and mechanical refrigeration cooling water installations 3 are wrapped
Evaporator 11 and condenser 12 are included, refrigerant passage and cold water channel are provided with evaporator 11, be provided with condenser 12
Refrigerant passage and cooling-water duct, the refrigerant passage of evaporator 11 are connected with the refrigerant passage of condenser 12, evaporator 11
Cold water channel outlet is connected with the cold water inlet of first user 5 by the first pipeline 13, the cold water delivery port of first user 5
Cold water channel import with evaporator 11 is connected by the second pipeline 14, is had in the cooling-water duct inlet communication of condenser 12
3rd pipeline 15, has the 4th pipeline 16 in the cooling-water duct outlet of condenser 12, and the 4th pipeline 16 and the first water distribution are filled
The water inlet for putting 21 is connected, the delivery port of the first water tank 23 and the surface-type heat exchanger 26 of the first sweat cooling cooling water installations
Cold water channel import is connected by the 5th pipeline 17, and the 5th pipeline 17 is connected with the 3rd pipeline 15, surface-type heat exchanger 26
The cold water channel outlet of setting is connected with the water inlet of the first water-distributing device 21 by the 6th pipeline 18, and the second sweat cooling is supplied
The delivery port of second water tank 29 of water-cooling device 2 is connected with the cold water inlet of second user 6 by the 7th pipeline 31, and second uses
The cold-water return mouthful at family 6 is connected with the water inlet of the second water-distributing device 27 by the 8th pipeline 32, is gone here and there on the first pipeline 13
The first water pump 19 is connected to, the 3rd water pump 33 is serially connected with the 5th pipeline 17, the second water pump 20 is serially connected with the 7th pipeline 31.
A high temperature cold water part in first water tank 23 first passes through the first water pump 19 and the 5th pipeline 17 enters second surface
In formula heat exchanger 37, cooling enters the air of the second sweat cooling cooling water installations 2, by the water of second surface formula heat exchanger 37
Sprayed in returning to the first water-distributing device 21 by the 6th pipeline 18, carrying out caloic with the air for entering exchanges, prepare cold water and return
Recycled in the first water tank 23;The high temperature cold water of another part enters condenser by the 3rd pipeline 15 in first water tank 23
In 12 cooling-water duct, the heat of condenser 12 is taken away, the water in the condenser 12 out returns to the by the 4th pipeline 16
In one water-distributing device 21, on last Water spray to the first filler 22, carry out caloic with the air for entering and exchange, prepare cold water and return
Recycled in the first water tank 23;High temperature cold water in second water tank 29 is sent to the by the second water pump 20 and the 7th pipeline 31
In two users 6, in returning to the second water-distributing device 27 after the heat for taking away second user 6, on last Water spray to the second filler 28,
Carry out caloic and exchange with the air for entering, prepare cold water and return to and recycle in the second water tank 29.
In the present embodiment, the high temperature cold water part that the first sweat cooling cooling water installations 1 are produced is changed to second surface formula
Hot device 37 provides cold, and another part is used for the cooling of condenser 12, finally returns and recycle in the first water tank 23;Second
The cold water that sweat cooling cooling water installations 2 are produced first provides cold for second user 6, returns circulation profit in the second water tank 29
With;
Low-temperature cold water is circulated between first user 5 and evaporator 11, i.e., high temperature cold water is not mixed with low-temperature cold water,
Thus avoid losses by mixture, and realize the cascade utilization of energy, the principle of Optimized Matching so that cold is maximized to be released
Put.
Embodiment 5:As figure 5 illustrates, as the optimization of embodiment 1, it is with embodiment 2 to the difference of embodiment 4, should
The compound dual temperature handpiece Water Chilling Units of sweat cooling also include first user 5 and second user 6, and first user 5 and second user 6 are respectively
Cold water inlet and cold-water return mouthful are provided with, the first sweat cooling cooling water installations 1 include the first housing 34 and first surface
Formula heat exchanger 35, the first water-distributing device 21, the first filler 22 and the first water tank 23 are provided with the first housing 34 from top to bottom,
The first air inlet 24 communicated with external air inlet port is provided with the first housing 34 between the first filler 22 and the first water tank 23,
The first air outlet communicated with the air inlet of blower fan 4, first are provided with the first housing 34 of the top of the first water-distributing device 21
The first cold water channel and the first cold air duct communicated with the first air inlet 24, first surface are provided with surface-type heat exchanger 35
Formula heat exchanger 35 is arranged at the first air inlet 24, and the second sweat cooling cooling water installations 2 include the second housing 36 and the second table
Face formula heat exchanger 37, the second water-distributing device 27, the second filler 28 and the second water tank are provided with the second housing 36 from top to bottom
29, it is provided with the second air inlet communicated with external air inlet port on the second housing 36 between the second filler 28 and the second water tank 29
30, the second air outlet communicated with the air inlet of blower fan 4 is provided with the second housing 36 of the top of the second water-distributing device 27, the
The second cold water channel and the second cold air duct communicated with the second air inlet 30, the second table are provided with two surface-type heat exchangers 37
Face formula heat exchanger 37 is arranged at the second air inlet 30, and mechanical refrigeration cooling water installations 3 include evaporator 11 and condenser 12,
Refrigerant passage and cold water channel are provided with evaporator 11, refrigerant passage and cooling-water duct are provided with condenser 12, steamed
The refrigerant passage for sending out device 11 is connected with the refrigerant passage of condenser 12, cold water channel outlet and the first user 5 of evaporator 11
Cold water inlet be connected by the first pipeline 13, cold water delivery port and the cold water channel of evaporator 11 of first user 5 enter
Mouth is connected by the second pipeline 14, has the 3rd pipeline 15, the 3rd pipeline 15 in the cooling-water duct inlet communication of condenser 12
It is connected with the second cold water channel outlet of second surface formula heat exchanger 37, has in the cooling-water duct outlet of condenser 12
4th pipeline 16, the 4th pipeline 16 is connected with the water inlet of the first water-distributing device 21, the delivery port of the first water tank 23 and the second table
The cold water channel import of face formula heat exchanger 37 is connected by the 5th pipeline 17, the delivery port of the second water tank 29 and second user 6
Cold water inlet is connected by the 6th pipeline 18, and the cold-water return mouthful of second user 6 is cold with first surface formula heat exchanger 35
Water passageway inlet is connected by the 7th pipeline 31, cold water channel outlet and second water-distributing device of first surface formula heat exchanger 35
27 water inlet is connected by the 8th pipeline 32, the first water pump 19 is serially connected with the first pipeline 13, on the 5th pipeline 17
The 3rd water pump 33 is serially connected with, the second water pump 20 is serially connected with the 6th pipeline 18.
High temperature cold water in first water tank 23 first passes through the 3rd water pump 33 and the 5th pipeline 17 enters the heat exchange of second surface formula
In device 37, cooling enters the air of the second housing 36, is entered by the 3rd pipeline 15 by the water of second surface formula heat exchanger 37
The cooling-water duct of condenser 12, takes away the heat of condenser 12, and the 4th pipeline is passed through 16 times from the interior water out of condenser 12
To in the first water-distributing device 21, on last Water spray to the first filler 22, carry out caloic with the air for entering and exchange, prepare cold water
And return to and recycle in the first water tank 23;Cold water in second water tank 29 is sent to the by the second water pump 20 and the 6th pipeline 18
In two users 6, take away in the first cold water channel for entering first surface formula heat exchanger 35 after the heat of second user 6, cool down into
Enter the air in the first housing 34, the second water-distributing device is returned to by the 8th pipeline 32 by the water of first surface formula heat exchanger 35
In 27, on last Water spray to the second filler 28, carry out caloic with the air for entering and exchange, prepare cold water and return to the second water tank
Recycled in 29.
In the present embodiment, the high temperature cold water that the first sweat cooling cooling water installations 1 are produced first gives second surface formula heat exchanger
37 provide colds, are then used further to the cooling of condenser 12, finally return and recycle in the first water tank 23;Second evaporation system
The cold water that cold cooling water installations 2 are produced first provides cold for second user 6, then provides cold to first surface formula heat exchanger 35,
Eventually pass back to be recycled in the second water tank 29;
Low-temperature cold water is circulated between first user 5 and evaporator 11, i.e., high temperature cold water is not mixed with low-temperature cold water,
Thus avoid losses by mixture, and realize the cascade utilization of energy, the principle of Optimized Matching so that cold is maximized to be released
Put.
Embodiment 6:As shown in fig. 6, as the optimization of embodiment 1, be with embodiment 2 to the difference of embodiment 5,
The compound dual temperature handpiece Water Chilling Units of the sweat cooling also include first user 5 and second user 6, and first user 5 and second user 6 are divided equally
Cold water inlet and cold-water return mouthful are not provided with, and the first sweat cooling cooling water installations 1 include the first housing 34 and the first table
Face formula heat exchanger 35, the first water-distributing device 21, the first filler 22 and the first water tank are provided with the first housing 34 from top to bottom
23, it is provided with the first air inlet communicated with external air inlet port on the first housing 34 between the first filler 22 and the first water tank 23
24, the first air outlet communicated with the air inlet of blower fan 4 is provided with the first housing 34 of the top of the first water-distributing device 21, the
The first cold water channel and the first cold air duct communicated with the first air inlet 24, the first table are provided with one surface-type heat exchanger 35
Face formula heat exchanger 35 is arranged at the first air inlet 24, and the second sweat cooling cooling water installations 2 include the second housing 36 and second
Surface-type heat exchanger 37, the second water-distributing device 27, the second filler 28 and the second water are provided with the second housing 36 from top to bottom
Case 29, the second air intake communicated with external air inlet port is provided with the second housing 36 between the second filler 28 and the second water tank 29
Mouth 30, is provided with the second air outlet communicated with the air inlet of blower fan 4 on the second housing 36 of the top of the second water-distributing device 27,
The second cold water channel and the second cold air duct communicated with the second air inlet 30, second are provided with second surface formula heat exchanger 37
Surface-type heat exchanger 37 is arranged at the second air inlet 30, and mechanical refrigeration cooling water installations 3 include evaporator 11 and condenser 12,
Refrigerant passage and cold water channel are provided with evaporator 11, refrigerant passage and cooling-water duct are provided with condenser 12,
The refrigerant passage of evaporator 11 is connected with the refrigerant passage of condenser 12, and the cold water channel of evaporator 11 is exported and first user
5 cold water inlet is connected by the first pipeline 13, and cold water delivery port and the cold water channel of evaporator 11 of first user 5 enter
Mouth is connected by the second pipeline 14, has the 3rd pipeline 15, the 3rd pipeline 15 in the cooling-water duct inlet communication of condenser 12
It is connected with the cold-water return mouthful of second user 6, has the 4th pipeline 16, the 4th in the cooling-water duct outlet of condenser 12
Pipeline 16 is connected with the water inlet of the second water-distributing device 27, and the delivery port of the first water tank 23 is cold with second surface formula heat exchanger 37
Water passageway inlet is connected by the 5th pipeline 17, and the cold water channel outlet of second surface formula heat exchanger 37 is changed with first surface formula
The cold water channel import of hot device 35 is connected by the 6th pipeline 18, the cold water channel of first surface formula heat exchanger 35 outlet and the
The water inlet of one water-distributing device 21 is connected by the 7th pipeline 31, and the delivery port of the second water tank 29 enters with the cold water of second user 6
The mouth of a river is connected by the 8th pipeline 32, and the first water pump 19 is serially connected with the first pipeline 13, is serially connected with the 5th pipeline 17
3rd water pump 33, is serially connected with the second water pump 20 on the 8th pipeline 32.
High temperature cold water in first water tank 23 first passes through the 3rd water pump 33 and the 5th pipeline 17 enters the heat exchange of second surface formula
In device 37, cooling enters the air of the second housing 36, is entered by the 6th pipeline 18 by the water of second surface formula heat exchanger 37
In first cold water channel of first surface formula heat exchanger 35, the air that cooling enters in the first housing 34, by first surface formula
The water of heat exchanger 35 is returned in the first water-distributing device 21 by the 7th pipeline 31, on last Water spray to the first filler 22, and is entered
The air for entering carries out caloic exchange, prepares cold water and returns to and recycle in the first water tank 23;
Cold water in second water tank 29 is sent in second user 6 by the second water pump 20 and the 8th pipeline 32, takes away second
Into the cooling-water duct of condenser 12 after the heat of user 6, the heat of condenser 12 is taken away, from the interior water out of condenser 12
In returning to the second water-distributing device 27 by the 4th pipeline 16, on last Water spray to the second filler 28, carried out with the air for entering
Caloic is exchanged, and is prepared cold water and is returned to and recycle in the second water tank 29.
In the present embodiment, the high temperature cold water that the first sweat cooling cooling water installations 1 are produced first gives second surface formula heat exchanger
37 provide cold, are then used further to provide cold to first surface formula heat exchanger 35, eventually pass back to circulate profit in the first water tank 23
With;The cold water that second sweat cooling cooling water installations 2 are produced first provides cold for second user 6, then to the cooling of condenser 12,
Finally return and recycle in the second water tank 29;
Low-temperature cold water is circulated between first user 5 and evaporator 11, i.e., high temperature cold water is not mixed with low-temperature cold water,
Thus avoid losses by mixture, and realize the cascade utilization of energy, the principle of Optimized Matching so that cold is maximized to be released
Put.
Embodiment 7:As shown in fig. 7, as the optimization of embodiment 1, be with embodiment 2 to the difference of embodiment 6,
The compound dual temperature handpiece Water Chilling Units of the sweat cooling also include first user 5 and second user 6, and first user 5 and second user 6 are divided equally
Cold water inlet and cold-water return mouthful are not provided with, and the first sweat cooling cooling water installations 1 include the first housing 34 and the first table
Face formula heat exchanger 35, the first water-distributing device 21, the first filler 22 and the first water tank are provided with the first housing 34 from top to bottom
23, it is provided with the first air inlet communicated with external air inlet port on the first housing 34 between the first filler 22 and the first water tank 23
24, the first air outlet communicated with the air inlet of blower fan 4 is provided with the first housing 34 of the top of the first water-distributing device 21, the
The first cold water channel and the first cold air duct communicated with the first air inlet 24, the first table are provided with one surface-type heat exchanger 35
Face formula heat exchanger 35 is arranged at the first air inlet 24, and the second sweat cooling cooling water installations 2 include the second housing 36 and second
Surface-type heat exchanger 37, the second water-distributing device 27, the second filler 28 and the second water are provided with the second housing 36 from top to bottom
Case 29, the second air intake communicated with external air inlet port is provided with the second housing 36 between the second filler 28 and the second water tank 29
Mouth 30, is provided with the second air outlet communicated with the air inlet of blower fan 4 on the second housing 36 of the top of the second water-distributing device 27,
The second cold water channel and the second cold air duct communicated with the second air inlet 30, second are provided with second surface formula heat exchanger 37
Surface-type heat exchanger 37 is arranged at the second air inlet 30, and mechanical refrigeration cooling water installations 3 include evaporator 11 and condenser 12,
Refrigerant passage and cold water channel are provided with evaporator 11, refrigerant passage and cooling-water duct are provided with condenser 12,
The refrigerant passage of evaporator 11 is connected with the refrigerant passage of condenser 12, and the cold water channel of evaporator 11 is exported and first user
5 cold water inlet is connected by the first pipeline 13, and cold water delivery port and the cold water channel of evaporator 11 of first user 5 enter
Mouth is connected by the second pipeline 14, has the 3rd pipeline 15, the 3rd pipeline 15 in the cooling-water duct inlet communication of condenser 12
It is connected with the cold-water return mouthful of second user 6, has the 4th pipeline 16, the 4th in the cooling-water duct outlet of condenser 12
Pipeline 16 is connected with the water inlet of the first water-distributing device 21 and the second water-distributing device 27, the delivery port of the first water tank 23 and second
The cold water channel import of surface-type heat exchanger 37 is connected by the 5th pipeline 17, the cold water channel of second surface formula heat exchanger 37
Outlet is connected with the cold water channel import of first surface formula heat exchanger 35 by the 6th pipeline 18, first surface formula heat exchanger 35
Cold water channel outlet be connected by the 7th pipeline 31 with the water inlet of the first water-distributing device 21 and the second water-distributing device 27, the
The delivery port of two water tank 29 is connected with the 5th pipeline 17 by the 8th pipeline 32, the delivery port of the first water tank 23 and second user 6
Cold water inlet is connected by the 9th pipeline 38, and the delivery port of the second water tank 29 is connected with the 9th pipeline 38 by the tenth pipeline 39
It is logical, the first water pump 19 is serially connected with the first pipeline 13, in the 8th pipeline 32 and the cold water channel of second surface formula heat exchanger 37
Be serially connected with the 3rd water pump 33 on the 5th pipeline 17 between import, the tenth pipeline 39 and second user 6 cold water inlet it
Between the 9th pipeline 38 on be serially connected with the second water pump 20.
A part of high temperature cold water in first water tank 23 and the second water tank 29 first passes through the 8th pipeline 32, the and of the 3rd water pump 33
5th pipeline 17 enters in second surface formula heat exchanger 37, and cooling enters the air of the second housing 36, is changed by second surface formula
The water of hot device 37 is entered in the first cold water channel of first surface formula heat exchanger 35 by the 6th pipeline 18, and cooling enters first shell
Air in body 34, the first water-distributing device 21 and second is returned to by the water of first surface formula heat exchanger 35 by the 7th pipeline 31
In water-distributing device 27, on last Water spray to respective filler 8, carry out caloic with the air of each self-corresponding entrance and exchange, make
Standby cold water is simultaneously returned to each to being recycled in deserved water tank 9;
Another part high temperature cold water in first water tank 23 and the second water tank 29 passes through the tenth pipeline 39, the and of the second water pump 20
9th pipeline 38 is sent in second user 6, takes away the cooling-water duct for entering condenser 12 after the heat of second user 6, is taken away
The heat of condenser 12, the first water-distributing device 21 and the second water distribution are returned to from the interior water out of condenser 12 by the 4th pipeline 16
In device 27, on last Water spray to respective filler 8, carry out caloic with the air of each self-corresponding entrance and exchange, prepare cold
Water is simultaneously returned to each to being recycled in deserved water tank 9.
Low-temperature cold water is circulated between first user 5 and evaporator 11, i.e., high temperature cold water is not mixed with low-temperature cold water,
Thus avoid losses by mixture, and realize the cascade utilization of energy, the principle of Optimized Matching so that cold is maximized to be released
Put.
Embodiment 8:As shown in figure 8, as the optimization of embodiment 1, be with embodiment 2 to the difference of embodiment 7,
The compound dual temperature handpiece Water Chilling Units of the sweat cooling also include plate type heat exchanger 40, first user 5 and second user 6, the He of first user 5
Second user 6 is respectively provided with cold water inlet and cold-water return mouthful, the first sweat cooling cooling water installations 1 and the second evaporation
Is provided with water-distributing device 7, filler 8 and water tank 9 from top to bottom in the housing of refrigeration cooling water installations 2, filler 8 and water tank 9 it
Between housing on be provided with the air inlet 10 communicated with external air inlet port, be provided with and blower fan 4 on the housing of the top of water-distributing device 7
The air outlet that communicates of air inlet, mechanical refrigeration cooling water installations 3 include evaporator 11 and condenser 12, are set in evaporator 11
Refrigerant passage and cold water channel are equipped with, refrigerant passage and cooling-water duct, the refrigerant of evaporator 11 are provided with condenser 12
Passage is connected with the refrigerant passage of condenser 12, and the cold water channel of evaporator 11 exports the cold water inlet with first user 5
It is connected by the first pipeline 13, the cold water delivery port of first user 5 is with the cold water channel import of evaporator 11 by the second pipe
Line 14 is connected, and has the 3rd pipeline 15, the 3rd pipeline 15 and plate type heat exchanger in the cooling-water duct inlet communication of condenser 12
The outlet of 40 aquaporin is connected, and has the 4th pipeline 16, the 4th pipe in the cooling-water duct outlet of condenser 12
Line 16 is connected with the water-distributing device 7 of the first sweat cooling cooling water installations 1 and the second sweat cooling cooling water installations 2, the
The delivery port of water tank 9 of one sweat cooling cooling water installations 1 is with an import for aquaporin of plate type heat exchanger 40 by the 5th pipe
Line 17 is connected, and the delivery port of water tank 9 of the second sweat cooling cooling water installations 2 is connected with the 5th pipeline 17 by the 6th pipeline 18
It is logical, the first water pump 19 is serially connected with the first pipeline 13, in entering for the 6th pipeline 18 and an aquaporin of plate type heat exchanger 40
The second water pump 20, the cold-water return mouthful and the two of plate type heat exchanger 40 of second user 6 are serially connected with the 5th pipeline 17 between mouthful
Secondary water passageway inlet is connected, and the cold water inlet of second user 6 is connected with the secondary water channel outlet of plate type heat exchanger 40.
Water in the water tank 9 of first sweat cooling cooling water installations 1 and the water tank 9 of the second sweat cooling cooling water installations 2 passes through
High temperature cold water is delivered to second water pump 20 aquaporin of plate type heat exchanger 40, takes away the heat of plate type heat exchanger 40, is led to
The water crossed after an aquaporin of plate type heat exchanger 40 enters the condenser of mechanical refrigeration cooling water installations 3 by the 3rd pipeline 15
In 12 cooling-water ducts, the heat of condenser 12 is taken away, by the cooling-water duct of condenser 12 of mechanical refrigeration cooling water installations 3
Water afterwards is returned in water-distributing device 7 finally by the 4th pipeline 16, and by spray, water enters respective filler 8, and by air intake
Mouth 10 carries out heat exchange into the air in the first sweat cooling cooling water installations 1 and the second sweat cooling cooling water installations 2, makes
High temperature cold water is taken, the high temperature cold water of preparation is fallen into respective water tank 9, form circulation;The evaporation of mechanical refrigeration cooling water installations 3
Low-temperature cold water prepared by device 11 is delivered to first user 5 by the first water pump 19, takes away the heat of first user 5, then returns again
To in the evaporator 11 of mechanical refrigeration cooling water installations 3.
Cold water between the secondary aquaporin and second user 6 of plate type heat exchanger 40 is circulated.
In the present embodiment, the high temperature cold water that the first sweat cooling cooling water installations are produced first provides cold to plate type heat exchanger 40
Amount, is then used further to the cooling of condenser 12, finally returns and recycle in water tank 9;Low-temperature cold water is in first user 5 and steaming
Circulated between hair device 11, i.e., high temperature cold water is not mixed with low-temperature cold water, thus avoid losses by mixture, and realize energy
Cascade utilization, the principle of Optimized Matching so that the maximized release of cold.
Embodiment 9:As shown in figure 9, as the optimization of embodiment 1, be with embodiment 2 to the difference of embodiment 8,
The compound dual temperature handpiece Water Chilling Units of the sweat cooling also include plate type heat exchanger 40, first user 5 and second user 6, the He of first user 5
Second user 6 is respectively provided with cold water inlet and cold-water return mouthful, in the housing of the first sweat cooling cooling water installations 1 certainly
It is upper and be arranged with the first water-distributing device 21, the first filler 22 and the first water tank 23, the first filler 22 and the first water tank 23 it
Between the first sweat cooling cooling water installations 1 housing on be provided with the first air inlet 24 communicated with external air inlet port, first
The communicated with the air inlet of blower fan 4 is provided with the housing of the first sweat cooling cooling water installations 1 of the top of water-distributing device 21
One air outlet, the second sweat cooling cooling water installations 2 include machine unit shell 25 and surface-type heat exchanger 26, in machine unit shell 25
The second water-distributing device 27, the second filler 28 and the second water tank 29 are provided with from top to bottom, in the second filler 28 and the second water tank 29
Between machine unit shell 25 on be provided with the second air inlet 30 communicated with external air inlet port, in the machine of the top of the second water-distributing device 27
The second air outlet communicated with the air inlet of blower fan 4 is provided with group housing 25, the interior cold water that is provided with of surface-type heat exchanger 26 leads to
Road and the cold air duct communicated with the second air inlet 30, surface-type heat exchanger 26 are arranged at the second air inlet 30, mechanical refrigeration
Cooling water installations 3 include evaporator 11 and condenser 12, and refrigerant passage and cold water channel are provided with evaporator 11, in condensation
Refrigerant passage and cooling-water duct are provided with device 12, the refrigerant passage of evaporator 11 is connected with the refrigerant passage of condenser 12
Logical, the cold water channel outlet of evaporator 11 is connected with the cold water inlet of first user 5 by the first pipeline 13, first user
5 cold water delivery port is connected with the cold water channel import of evaporator 11 by the second pipeline 14, in the cooling water of condenser 12
Channel entrance is communicated with the 3rd pipeline 15, and the 3rd pipeline 15 is connected with the cold water channel outlet of surface-type heat exchanger 26, cold
The cooling-water duct outlet of condenser 12 has the 4th pipeline 16, and the 4th pipeline 16 is connected with the water inlet of the first water-distributing device 21
Logical, the delivery port of the first water tank 23 of the first sweat cooling cooling water installations 1 leads to the cold water channel import of surface-type heat exchanger 26
Cross the 5th pipeline 17 to be connected, the delivery port of the second water tank 29 and the plate type heat exchanger 40 of the second sweat cooling cooling water installations 2
One time water passageway inlet is connected by the 6th pipeline 18, the outlet of an aquaporin and second water-distributing device of plate type heat exchanger 40
27 water inlet is connected by the 7th pipeline 31, the first water pump 19 is serially connected with the first pipeline 13, on the 5th pipeline 17
The 3rd water pump 33 is serially connected with, the second water pump 20 is serially connected with the 6th pipeline 18, the cold-water return mouthful of second user 6 is changed with board-like
The secondary water passageway inlet of hot device 40 is connected, the cold water inlet of second user 6 and the secondary aquaporin of plate type heat exchanger 40
Outlet is connected.
High temperature cold water in first water tank 23 first passes through the first water pump 19 and the 5th pipeline 17 enters the heat exchange of second surface formula
In device 37, cooling enters the air of the second sweat cooling cooling water installations 2, by the water of second surface formula heat exchanger 37 by the
Three pipeline 15 enters the cooling-water duct of condenser 12, takes away the heat of condenser 12, passes through from the interior water out of condenser 12
4th pipeline 16 is returned in the first water-distributing device 21, on last Water spray to the first filler 22, caloic is carried out with the air for entering
Exchange, prepare cold water and return to and recycle in the first water tank 23;Cold water in second water tank 29 is by the second water pump 20 and the
Six pipelines 18 are sent in an aquaporin of plate type heat exchanger 40, and the second water distribution dress is returned to after the heat for taking away plate type heat exchanger 40
Put in 27, on last Water spray to the second filler 28, carry out caloic with the air for entering and exchange, prepare cold water and return to the second water
Recycled in case 29.
Cold water between the secondary aquaporin and second user 6 of plate type heat exchanger 40 is circulated.
In the present embodiment, the high temperature cold water that the first sweat cooling cooling water installations 1 are produced first gives second surface formula heat exchanger
37 provide colds, are then used further to the cooling of condenser 12, finally return and recycle in the first water tank 23;Second evaporation system
The cold water that cold cooling water installations 2 are produced first provides cold for plate type heat exchanger 40, returns and recycle in the second water tank 29;
Low-temperature cold water is circulated between first user 5 and evaporator 11, i.e., high temperature cold water is not mixed with low-temperature cold water,
Thus avoid losses by mixture, and realize the cascade utilization of energy, the principle of Optimized Matching so that cold is maximized to be released
Put.
Embodiment 10:As shown in Figure 10, as the optimization of embodiment 1, exist with embodiment 2 to the difference of embodiment 9
In the compound dual temperature handpiece Water Chilling Units of the sweat cooling also include plate type heat exchanger 40, first user 5 and second user 6, first user
5 and second user 6 be respectively provided with cold water inlet and cold-water return mouthful, the housing of the first sweat cooling cooling water installations 1
The first water-distributing device 21, the first filler 22 and the first water tank 23 are inside provided with from top to bottom, in the first filler 22 and the first water tank
The first air inlet 24 communicated with external air inlet port is provided with the housing of the first sweat cooling cooling water installations 1 between 23,
It is provided with the housing of the first sweat cooling cooling water installations 1 of the top of the first water-distributing device 21 and is communicated with the air inlet of blower fan 4
The first air outlet, the second sweat cooling cooling water installations 2 include machine unit shell 25 and surface-type heat exchanger 26, in machine unit shell
The second water-distributing device 27, the second filler 28 and the second water tank 29 are provided with from top to bottom in 25, in the second filler 28 and the second water
The second air inlet 30 communicated with external air inlet port is provided with machine unit shell 25 between case 29, in the top of the second water-distributing device 27
Machine unit shell 25 on be provided with the second air outlet communicated with the air inlet of blower fan 4, be provided with surface-type heat exchanger 26 cold
Aquaporin and the cold air duct communicated with the second air inlet 30, surface-type heat exchanger 26 are arranged at the second air inlet 30, machinery
Refrigeration cooling water installations 3 include evaporator 11 and condenser 12, and refrigerant passage and cold water channel are provided with evaporator 11,
Refrigerant passage and cooling-water duct, the refrigerant passage of evaporator 11 and the refrigerant passage phase of condenser 12 are provided with condenser 12
Connection, the cold water channel outlet of evaporator 11 is connected with the cold water inlet of first user 5 by the first pipeline 13, and first uses
The cold water delivery port at family 5 is connected with the cold water channel import of evaporator 11 by the second pipeline 14, in the cooling of condenser 12
Water passageway inlet is communicated with the 3rd pipeline 15, has the 4th pipeline 16, the 4th pipe in the cooling-water duct outlet of condenser 12
Line 16 is connected with the water inlet of the first water-distributing device 21, the delivery port of the first water tank 23 of the first sweat cooling cooling water installations 1
Cold water channel import with surface-type heat exchanger 26 is connected by the 5th pipeline 17, and the 5th pipeline 17 is connected with the 3rd pipeline 15
Logical, the cold water channel outlet that surface-type heat exchanger 26 is set is connected with the water inlet of the first water-distributing device 21 by the 6th pipeline 18
Logical, the delivery port of the second water tank 29 of the second sweat cooling cooling water installations 2 leads to a water passageway inlet of plate type heat exchanger 40
Cross the 7th pipeline 31 to be connected, the water inlet of the outlet of an aquaporin of plate type heat exchanger 40 and the second water-distributing device 27 is by the
Eight pipelines 32 are connected, and the first water pump 19 is serially connected with the first pipeline 13, and the 3rd water pump 33 is serially connected with the 5th pipeline 17,
The second water pump 20 is serially connected with the 7th pipeline 31, the cold-water return mouthful of second user 6 is led to the secondary water of plate type heat exchanger 40
Road import is connected, and the cold water inlet of second user 6 is connected with the secondary water channel outlet of plate type heat exchanger 40.
A high temperature cold water part in first water tank 23 first passes through the first water pump 19 and the 5th pipeline 17 enters second surface
In formula heat exchanger 37, cooling enters the air of the second sweat cooling cooling water installations 2, by the water of second surface formula heat exchanger 37
Sprayed in returning to the first water-distributing device 21 by the 6th pipeline 18, carrying out caloic with the air for entering exchanges, prepare cold water and return
Recycled in the first water tank 23;The high temperature cold water of another part enters condenser by the 3rd pipeline 15 in first water tank 23
In 12 cooling-water duct, the heat of condenser 12 is taken away, the water in the condenser 12 out returns to the by the 4th pipeline 16
In one water-distributing device 21, on last Water spray to the first filler 22, carry out caloic with the air for entering and exchange, prepare cold water and return
Recycled in the first water tank 23;High temperature cold water in second water tank 29 is sent to plate by the second water pump 20 and the 7th pipeline 31
In aquaporin of formula heat exchanger 40, in returning to the second water-distributing device 27 after the heat for taking away plate type heat exchanger 40, finally
Water spray carries out caloic and exchanges on the second filler 28 with the air for entering, and prepares cold water and returns to and circulate in the second water tank 29
Utilize.
Cold water between the secondary aquaporin and second user 6 of plate type heat exchanger 40 is circulated.
In the present embodiment, the high temperature cold water part that the first sweat cooling cooling water installations 1 are produced is changed to second surface formula
Hot device 37 provides cold, and another part is used for the cooling of condenser 12, finally returns and recycle in the first water tank 23;First
The cold water that sweat cooling cooling water installations 1 are produced first provides cold for plate type heat exchanger 40, returns circulation in the second water tank 29
Utilize;
Low-temperature cold water is circulated between first user 5 and evaporator 11, i.e., high temperature cold water is not mixed with low-temperature cold water,
Thus avoid losses by mixture, and realize the cascade utilization of energy, the principle of Optimized Matching so that cold is maximized to be released
Put.
Embodiment 11:As shown in figure 11, as the optimization of embodiment 1, exist with embodiment 2 to the difference of embodiment 10
In the compound dual temperature handpiece Water Chilling Units of the sweat cooling also include plate type heat exchanger 40, first user 5 and second user 6, first user
5 and second user 6 be respectively provided with cold water inlet and cold-water return mouthful, the first sweat cooling cooling water installations 1 include the
One housing 34 and first surface formula heat exchanger 35, the first water-distributing device 21, first is provided with the first housing 34 from top to bottom
The water tank 23 of filler 22 and first, is provided with and external air inlet port on the first housing 34 between the first filler 22 and the first water tank 23
The first air inlet 24 for communicating, is provided with the air inlet phase with blower fan 4 on the first housing 34 of the top of the first water-distributing device 21
The first logical air outlet, the first cold water channel and communicated with the first air inlet 24 the are provided with first surface formula heat exchanger 35
One cold air duct, first surface formula heat exchanger 35 is arranged at the first air inlet 24, and the second sweat cooling cooling water installations 2 include
Second housing 36 and second surface formula heat exchanger 37, are provided with the second water-distributing device 27, the from top to bottom in the second housing 36
Two fillers 28 and the second water tank 29, are provided with and external air inlet on the second housing 36 between the second filler 28 and the second water tank 29
The second air inlet 30 that mouth is communicated, is provided with the air inlet with blower fan 4 on the second housing 36 of the top of the second water-distributing device 27
The second air outlet for communicating, the second cold water channel is provided with second surface formula heat exchanger 37 and is communicated with the second air inlet 30
Second cold air duct, second surface formula heat exchanger 37 is arranged at the second air inlet 30, and mechanical refrigeration cooling water installations 3 include steaming
Hair device 11 and condenser 12, refrigerant passage and cold water channel are provided with evaporator 11, and refrigerant is provided with condenser 12
Passage and cooling-water duct, the refrigerant passage of evaporator 11 are connected with the refrigerant passage of condenser 12, the cold water of evaporator 11
Channel outlet is connected with the cold water inlet of first user 5 by the first pipeline 13, the outlet of the cold water channel of evaporator 11 with
The cold water inlet of first user 5 is connected by the first pipeline 13, and the cold water delivery port of first user 5 is cold with evaporator 11
Water passageway inlet is connected by the second pipeline 14, has the 3rd pipeline 15 in the cooling-water duct inlet communication of condenser 12, the
Three pipelines 15 are connected with the second cold water channel outlet of second surface formula heat exchanger 37, go out in the cooling-water duct of condenser 12
Mouth is communicated with the 4th pipeline 16, and the 4th pipeline 16 is connected with the water inlet of the first water-distributing device 21, the delivery port of the first water tank 23
Cold water channel import with second surface formula heat exchanger 37 is connected by the 5th pipeline 17, the delivery port of the second water tank 29 with it is board-like
Water passageway inlet of heat exchanger 40 is connected by the 6th pipeline 18, an aquaporin of plate type heat exchanger 40 outlet and the
The cold water channel import of one surface-type heat exchanger 35 is connected by the 7th pipeline 31, and the cold water of first surface formula heat exchanger 35 leads to
Road outlet is connected with the water inlet of the second water-distributing device 27 by the 8th pipeline 32, and the first water is serially connected with the first pipeline 13
Pump 19, the 3rd water pump 33 is serially connected with the 5th pipeline 17, and the second water pump 20, second user 6 are serially connected with the 6th pipeline 18
Cold-water return mouthful be connected with the secondary water passageway inlet of plate type heat exchanger 40, the cold water inlet of second user 6 with it is board-like
The secondary water channel outlet of heat exchanger 40 is connected.
High temperature cold water in first water tank 23 first passes through the 3rd water pump 33 and the 5th pipeline 17 enters the heat exchange of second surface formula
In device 37, cooling enters the air of the second housing 36, is entered by the 3rd pipeline 15 by the water of second surface formula heat exchanger 37
The cooling-water duct of condenser 12, takes away the heat of condenser 12, and the 4th pipeline is passed through 16 times from the interior water out of condenser 12
To in the first water-distributing device 21, on last Water spray to the first filler 22, carry out caloic with the air for entering and exchange, prepare cold water
And return to and recycle in the first water tank 23;Cold water in second water tank 29 is sent to plate by the second water pump 20 and the 6th pipeline 18
In aquaporin of formula heat exchanger 40, the first of first surface formula heat exchanger 35 is entered after taking away the heat of plate type heat exchanger 40
In cold water channel, the air that cooling enters in the first housing 34 passes through the 8th pipeline by the water of first surface formula heat exchanger 35
During 32 return to the second water-distributing device 27, on last Water spray to the second filler 28, carry out caloic with the air for entering and exchange, prepare
Cold water and being returned to recycle in the second water tank 29.
Cold water between the secondary aquaporin and second user 6 of plate type heat exchanger 40 is circulated.
In the present embodiment, the high temperature cold water that the first sweat cooling cooling water installations 1 are produced first gives second surface formula heat exchanger
37 provide colds, are then used further to the cooling of condenser 12, finally return and recycle in the first water tank 23;Second evaporation system
The cold water that cold cooling water installations 2 are produced first provides cold for plate type heat exchanger 40, then provides cold to first surface formula heat exchanger 35
Amount, eventually passes back to be recycled in the second water tank 29;
Low-temperature cold water is circulated between first user 5 and evaporator 11, i.e., high temperature cold water is not mixed with low-temperature cold water,
Thus avoid losses by mixture, and realize the cascade utilization of energy, the principle of Optimized Matching so that cold is maximized to be released
Put.
Embodiment 12:As shown in figure 12, as the optimization of embodiment 1, exist with embodiment 2 to the difference of embodiment 11
In the compound dual temperature handpiece Water Chilling Units of the sweat cooling also include plate type heat exchanger 40, first user 5 and second user 6, first user
5 and second user 6 be respectively provided with cold water inlet and cold-water return mouthful, the first sweat cooling cooling water installations 1 include the
One housing 34 and first surface formula heat exchanger 35, the first water-distributing device 21, first is provided with the first housing 34 from top to bottom
The water tank 23 of filler 22 and first, is provided with and external air inlet port on the first housing 34 between the first filler 22 and the first water tank 23
The first air inlet 24 for communicating, is provided with the air inlet phase with blower fan 4 on the first housing 34 of the top of the first water-distributing device 21
The first logical air outlet, the first cold water channel and communicated with the first air inlet 24 the are provided with first surface formula heat exchanger 35
One cold air duct, first surface formula heat exchanger 35 is arranged at the first air inlet 24, and the second sweat cooling cooling water installations 2 include
Second housing 36 and second surface formula heat exchanger 37, are provided with the second water-distributing device 27, the from top to bottom in the second housing 36
Two fillers 28 and the second water tank 29, are provided with and external air inlet on the second housing 36 between the second filler 28 and the second water tank 29
The second air inlet 30 that mouth is communicated, is provided with the air inlet with blower fan 4 on the second housing 36 of the top of the second water-distributing device 27
The second air outlet for communicating, the second cold water channel is provided with second surface formula heat exchanger 37 and is communicated with the second air inlet 30
Second cold air duct, second surface formula heat exchanger 37 is arranged at the second air inlet 30, and mechanical refrigeration cooling water installations 3 include steaming
Hair device 11 and condenser 12, refrigerant passage and cold water channel are provided with evaporator 11, and refrigerant is provided with condenser 12
Passage and cooling-water duct, the refrigerant passage of evaporator 11 are connected with the refrigerant passage of condenser 12, the cold water of evaporator 11
Channel outlet is connected with the cold water inlet of first user 5 by the first pipeline 13, cold water delivery port and the steaming of first user 5
The cold water channel import for sending out device 11 is connected by the second pipeline 14, has the 3rd in the cooling-water duct inlet communication of condenser 12
Pipeline 15, the 3rd pipeline 15 is connected with the aquaporin outlet of plate type heat exchanger 40, in the cooling-water duct of condenser 12
Outlet has the 4th pipeline 16, and the 4th pipeline 16 is connected with the water inlet of the second water-distributing device 27, the water outlet of the first water tank 23
Mouth is connected with the cold water channel import of second surface formula heat exchanger 37 by the 5th pipeline 17, second surface formula heat exchanger 37
Cold water channel outlet is connected with the cold water channel import of first surface formula heat exchanger 35 by the 6th pipeline 18, first surface formula
The cold water channel outlet of heat exchanger 35 is connected with the water inlet of the first water-distributing device 21 by the 7th pipeline 31, the second water tank 29
Delivery port is connected with a water passageway inlet of plate type heat exchanger 40 by the 8th pipeline 32, is serially connected with the first pipeline 13
First water pump 19, the 3rd water pump 33 is serially connected with the 5th pipeline 17, and the second water pump 20, second are serially connected with the 8th pipeline 32
The cold-water return of user 6 mouthful is connected with the secondary water passageway inlet of plate type heat exchanger 40, the cold water inlet of second user 6 and
The secondary water channel outlet of plate type heat exchanger 40 is connected.
High temperature cold water in first water tank 23 first passes through the 3rd water pump 33 and the 5th pipeline 17 enters the heat exchange of second surface formula
In device 37, cooling enters the air of the second housing 36, is entered by the 6th pipeline 18 by the water of second surface formula heat exchanger 37
In first cold water channel of first surface formula heat exchanger 35, the air that cooling enters in the first housing 34, by first surface formula
The water of heat exchanger 35 is returned in the first water-distributing device 21 by the 7th pipeline 31, on last Water spray to the first filler 22, and is entered
The air for entering carries out caloic exchange, prepares cold water and returns to and recycle in the first water tank 23;
Cold water in second water tank 29 is sent to a water of plate type heat exchanger 40 by the second water pump 20 and the 8th pipeline 32
In passage, the cooling-water duct for entering condenser 12 after the heat of plate type heat exchanger 40 is taken away, take away the heat of condenser 12, from
The interior water out of condenser 12 is returned in the second water-distributing device 27 by the 4th pipeline 16, last Water spray to the second filler 28
On, carry out caloic and exchange with the air for entering, prepare cold water and return to and recycle in the second water tank 29.
Cold water between the secondary aquaporin and second user 6 of plate type heat exchanger 40 is circulated.
In the present embodiment, the high temperature cold water that the first sweat cooling cooling water installations 1 are produced first gives second surface formula heat exchanger
37 provide cold, are then used further to provide cold to first surface formula heat exchanger 35, eventually pass back to circulate profit in the first water tank 23
With;The cold water that second sweat cooling cooling water installations 2 are produced first provides cold for plate type heat exchanger 40, then to the cold of condenser 12
But, finally return and recycle in the second water tank 29;
Low-temperature cold water is circulated between first user 5 and evaporator 11, i.e., high temperature cold water is not mixed with low-temperature cold water,
Thus avoid losses by mixture, and realize the cascade utilization of energy, the principle of Optimized Matching so that cold is maximized to be released
Put.
Embodiment 13:As shown in figure 13, as the optimization of embodiment 1, exist with embodiment 2 to the difference of embodiment 12
In the compound dual temperature handpiece Water Chilling Units of the sweat cooling also include plate type heat exchanger 40, first user 5 and second user 6, first user
5 and second user 6 be respectively provided with cold water inlet and cold-water return mouthful, the first sweat cooling cooling water installations 1 include the
One housing 34 and first surface formula heat exchanger 35, the first water-distributing device 21, first is provided with the first housing 34 from top to bottom
The water tank 23 of filler 22 and first, is provided with and external air inlet port on the first housing 34 between the first filler 22 and the first water tank 23
The first air inlet 24 for communicating, is provided with the air inlet phase with blower fan 4 on the first housing 34 of the top of the first water-distributing device 21
The first logical air outlet, the first cold water channel and communicated with the first air inlet 24 the are provided with first surface formula heat exchanger 35
One cold air duct, first surface formula heat exchanger 35 is arranged at the first air inlet 24, and the second sweat cooling cooling water installations 2 include
Second housing 36 and second surface formula heat exchanger 37, are provided with the second water-distributing device 27, the from top to bottom in the second housing 36
Two fillers 28 and the second water tank 29, are provided with and external air inlet on the second housing 36 between the second filler 28 and the second water tank 29
The second air inlet 30 that mouth is communicated, is provided with the air inlet with blower fan 4 on the second housing 36 of the top of the second water-distributing device 27
The second air outlet for communicating, the second cold water channel is provided with second surface formula heat exchanger 37 and is communicated with the second air inlet 30
Second cold air duct, second surface formula heat exchanger 37 is arranged at the second air inlet 30, and mechanical refrigeration cooling water installations 3 include steaming
Hair device 11 and condenser 12, refrigerant passage and cold water channel are provided with evaporator 11, and refrigerant is provided with condenser 12
Passage and cooling-water duct, the refrigerant passage of evaporator 11 are connected with the refrigerant passage of condenser 12, the cold water of evaporator 11
Channel outlet is connected with the cold water inlet of first user 5 by the first pipeline 13, cold water delivery port and the steaming of first user 5
The cold water channel import for sending out device 11 is connected by the second pipeline 14, has the 3rd in the cooling-water duct inlet communication of condenser 12
Pipeline 15, the 3rd pipeline 15 is connected with the aquaporin outlet of plate type heat exchanger 40, in the cooling-water duct of condenser 12
Outlet has the 4th pipeline 16, and the 4th pipeline 16 is connected with the water inlet of the first water-distributing device 21 and the second water-distributing device 27
Logical, the delivery port of the first water tank 23 is connected with the cold water channel import of second surface formula heat exchanger 37 by the 5th pipeline 17, the
The cold water channel outlet of two surface-type heat exchangers 37 passes through the 6th pipeline with the cold water channel import of first surface formula heat exchanger 35
18 are connected, and the outlet of the cold water channel of first surface formula heat exchanger 35 and the first water-distributing device 21 and the second water-distributing device 27 enter
The mouth of a river is connected by the 7th pipeline 31, and the delivery port of the second water tank 29 is connected with the 5th pipeline 17 by the 8th pipeline 32, the
The delivery port of one water tank 23 is connected with a water passageway inlet of plate type heat exchanger 40 by the 9th pipeline 38, and the first water tank 23 goes out
The mouth of a river is connected with the 9th pipeline 38 by the tenth pipeline 39, and the first water pump 19 is serially connected with the first pipeline 13, in the 8th pipe
The 3rd water pump 33 is serially connected with the 5th pipeline 17 between the cold water channel import of line 32 and second surface formula heat exchanger 37,
The second water pump 20, second are serially connected with the 9th pipeline 38 between ten pipelines 39 and a water passageway inlet of plate type heat exchanger 40
The cold-water return of user 6 mouthful is connected with the secondary water passageway inlet of plate type heat exchanger 40, the cold water inlet of second user 6 and
The secondary water channel outlet of plate type heat exchanger 40 is connected.
A part of high temperature cold water in first water tank 23 and the second water tank 29 first passes through the 8th pipeline 32, the and of the 3rd water pump 33
5th pipeline 17 enters in second surface formula heat exchanger 37, and cooling enters the air of the second housing 36, is changed by second surface formula
The water of hot device 37 is entered in the first cold water channel of first surface formula heat exchanger 35 by the 6th pipeline 18, and cooling enters first shell
Air in body 34, the first water-distributing device 21 and second is returned to by the water of first surface formula heat exchanger 35 by the 7th pipeline 31
In water-distributing device 27, on last Water spray to respective filler 8, carry out caloic with the air of each self-corresponding entrance and exchange, make
Standby cold water is simultaneously returned to each to being recycled in deserved water tank 9;
Another part high temperature cold water in first water tank 23 and the second water tank 29 passes through the tenth pipeline 39, the and of the second water pump 20
9th pipeline 38 is sent in an aquaporin of plate type heat exchanger 40, and condenser 12 is entered after taking away the heat of plate type heat exchanger 40
Cooling-water duct, take away the heat of condenser 12, the water in the condenser 12 out returns to the first cloth by the 4th pipeline 16
In the water-distributing device 27 of water installations 21 and second, on last Water spray to respective filler 8, the air with each self-corresponding entrance enters
Row caloic is exchanged, and is prepared cold water and is returned to each to being recycled in deserved water tank 9.
Low-temperature cold water is circulated between first user 5 and evaporator 11, i.e., high temperature cold water is not mixed with low-temperature cold water,
Thus avoid losses by mixture, and realize the cascade utilization of energy, the principle of Optimized Matching so that cold is maximized to be released
Put.
Embodiment 14:Used as the optimization of above-described embodiment 1 to embodiment 13, the quantity of mechanical refrigeration cooling water installations 3 is
Two or more, more than two mechanical refrigeration cooling water installations 3 are arranged on the first sweat cooling cooling water installations 1, second and evaporate
Between refrigeration cooling water installations 2, first cooling-water duct import and the 3rd of the condenser 12 of mechanical refrigeration cooling water installations 3
Pipeline 15 is connected, cooling-water duct outlet and the 4th pipeline of the condenser 12 of last mechanical refrigeration cooling water installations 3
16 are connected, and the cooling-water duct of the condenser 12 of all mechanical refrigeration cooling water installations 3 is serially connected, and all mechanical refrigerations are supplied
The outlet of the cold water channel of the evaporator 11 of water-cooling device 3 is connected with the cold water inlet of first user 5 by the first pipeline 13
Logical, the import of the cold water channel of the evaporator 11 of all mechanical refrigeration cooling water installations 3 is logical with the cold-water return of first user 5 mouthful
Cross the second pipeline 14 to be connected, the pipeline in the cold water channel exit of the evaporator 11 of all mechanical refrigeration cooling water installations 3 exists
The cold water inlet of first user 5 is arranged in parallel, the cold water channel import of the evaporator 11 of all mechanical refrigeration cooling water installations 3
The pipeline at place is arranged in parallel in the cold-water return mouthful of first user 5.
Embodiment 15:As the optimization of above-described embodiment 1 to embodiment 14, as needed, the quantity of blower fan 4 for one with
On.
According to actual demands of engineering, corresponding valve can be set in pipe-line system come realize water reasonable distribution and
Resistance balance.
All of sweat cooling cooling water installations are direct sweat cooling cooling water installations or indirect evaporation refrigerating cooling water
Device, when for indirect evaporation refrigerating cooling water installations, indirect evaporation refrigerating device can be surface cooler, indirect evaporating-cooling
Device, tubular type, board-like or plate-fin heat exchanger, by using different water circulation flows so that sweat cooling cooling water installations
Leaving water temperature it is lower, wherein the leaving water temperature limiting value of direct sweat cooling cooling water installations is air intake wet-bulb temperature, indirectly
The leaving water temperature limiting value of sweat cooling cooling water installations is air intake dew-point temperature.
In sum, the compound dual temperature handpiece Water Chilling Units combination evaporation-cooled device of this sweat cooling and mechanical refrigeration cooling water dress
Put 3 and produce cold water, the cold water that the first sweat cooling cooling water installations 1, the second sweat cooling cooling water installations 2 are produced is made with machinery
The cold water that cold cooling water installations 3 are produced is not mixed, and thus solves the problems, such as the losses by mixture that two bursts of cold water mix are caused,
There is refrigerated energy-saving, cascaded utilization of energy is deferred to, high temperature to high temperature heat transfer, low temperature to the principle of cryogenic heat transfer, it is maximum
The utilization regenerative resource of change, reaches the purpose of energy-conserving and environment-protective;In addition, mechanical refrigeration cooling water installations 3 are arranged at the first evaporation
Structure between refrigeration cooling water installations 1 and the second sweat cooling cooling water installations 2, evaporation-cooled device and mechanical refrigeration are supplied
Water-cooling device 3 is organically combined, and can cause that the compound dual temperature handpiece Water Chilling Units of whole sweat cooling are compacter, not in volume
The indoor spatial area of outer occupancy;Indoor end(First user 5)Using the low-temperature cold water of mechanical refrigeration, it is ensured that indoor
Humiture;Air-conditioning system independent temperature-humidity control is realized, the energy-conservation of air-conditioning system is reached.
Above technical characteristic constitutes embodiment of the present utility model, and it has stronger adaptability and implementation result, can
Increase and decrease non-essential technical characteristic according to actual needs to meet the demand of different situations.
Claims (6)
1. a kind of sweat cooling is combined dual temperature handpiece Water Chilling Units, it is characterised in that including shell body, first is provided with shell body
Sweat cooling cooling water installations, the second sweat cooling cooling water installations, mechanical refrigeration cooling water installations and blower fan, the first evaporation system
Cold cooling water installations and the second sweat cooling cooling water installations are located at the both sides of mechanical refrigeration cooling water installations, in the first evaporation system
The air outlet communicated with the air inlet of blower fan is provided with cold cooling water installations and the second sweat cooling cooling water installations, outside
Communicated with the air inlet of the first sweat cooling cooling water installations and the second sweat cooling cooling water installations outer is provided with housing
Air inlet and the outgoing tuyere communicated with the air outlet of blower fan.
2. sweat cooling according to claim 1 is combined dual temperature handpiece Water Chilling Units, it is characterised in that the first sweat cooling cooling
The cooling water of the delivery port of water installations or/and the second sweat cooling cooling water installations and the condenser of mechanical refrigeration cooling water installations
Channel entrance is connected, the cooling-water duct delivery port of the condenser of mechanical refrigeration cooling water installations and the first sweat cooling cooling
The water inlet of water installations or/and the second sweat cooling cooling water installations is connected.
3. sweat cooling according to claim 1 and 2 is combined dual temperature handpiece Water Chilling Units, it is characterised in that also including first user
And second user, first user and second user are respectively provided with cold water inlet and cold-water return mouthful, the first sweat cooling
Water-distributing device, filler and water tank are provided with from top to bottom in the housing of cooling water installations and the second sweat cooling cooling water installations,
The air inlet communicated with external air inlet port is provided with housing between filler and water tank, is set on the housing above water-distributing device
The air outlet communicated with the air inlet of blower fan is equipped with, mechanical refrigeration cooling water installations include evaporator and condenser, in evaporator
Refrigerant passage and cold water channel are inside provided with, refrigerant passage and cooling-water duct, the refrigerant of evaporator are provided with condenser
Passage is connected with the refrigerant passage of condenser, and the cold water inlet of the outlet of the cold water channel of evaporator and first user is by the
One pipeline is connected, and the cold water delivery port of first user is connected with the cold water channel import of evaporator by the second pipeline,
The cooling-water duct inlet communication of condenser has the 3rd pipeline, and the 3rd pipeline is connected with the cold-water return mouthful of second user,
The cooling-water duct outlet of condenser has the 4th pipeline, and the 4th pipeline and the first sweat cooling cooling water installations and second are steamed
The water-distributing device of hair refrigeration cooling water installations is connected, and the water outlet of water tank of the first sweat cooling cooling water installations and second is used
The cold water inlet at family is connected by the 5th pipeline, the water outlet of water tank and the 5th pipeline of the first sweat cooling cooling water installations
It is connected by the 6th pipeline, the first water pump is serially connected with the first pipeline, is intake in the cold water of the 6th pipeline and second user
The second water pump is serially connected with the 5th pipeline between mouthful;
Or, also including first user and second user, first user and second user be respectively provided with cold water inlet and
Cold-water return mouthful, the first water-distributing device, the first filler are provided with the housing of the first sweat cooling cooling water installations from top to bottom
With the first water tank, be provided with the housing of the first sweat cooling cooling water installations between the first filler and the first water tank with outward
The first air inlet that air inlet is communicated, is set on the housing of the first sweat cooling cooling water installations above the first water-distributing device
There is the first air outlet communicated with the air inlet of blower fan, the second sweat cooling cooling water installations include that machine unit shell and surface-type are changed
Hot device, is provided with the second water-distributing device, the second filler and the second water tank from top to bottom in machine unit shell, in the second filler and
The second air inlet communicated with external air inlet port, the machine above the second water-distributing device are provided with machine unit shell between two water tanks
Group housing on be provided with the second air outlet communicated with the air inlet of blower fan, be provided with surface-type heat exchanger cold water channel and with
The cold air duct that second air inlet is communicated, surface-type heat exchanger is arranged on the second air inlet, mechanical refrigeration cooling water installations bag
Evaporator and condenser are included, refrigerant passage and cold water channel are provided with evaporator, refrigerant passage is provided with condenser
And cooling-water duct, the refrigerant passage of evaporator is connected with the refrigerant passage of condenser, the cold water channel outlet of evaporator with
The cold water inlet of first user is connected by the first pipeline, the cold water delivery port of first user and the cold water channel of evaporator
Import is connected by the second pipeline, has the 3rd pipeline, the 3rd pipeline and surface in the cooling-water duct inlet communication of condenser
The cold water channel outlet of formula heat exchanger is connected, and has the 4th pipeline, the 4th pipeline in the cooling-water duct outlet of condenser
Water inlet with the first water-distributing device is connected, and the first water outlet of water tank of the first sweat cooling cooling water installations is changed with surface-type
The cold water channel import of hot device is connected by the 5th pipeline, the second water outlet of water tank of the second sweat cooling cooling water installations with
The cold water inlet of second user is connected by the 6th pipeline, and the cold-water return of second user mouthful and the second water-distributing device enter
The mouth of a river is connected by the 7th pipeline, and the first water pump is serially connected with the first pipeline, and the 3rd water pump is serially connected with the 5th pipeline,
The second water pump is serially connected with the 6th pipeline;
Or, also including first user and second user, first user and second user be respectively provided with cold water inlet and
Cold-water return mouthful, the first water-distributing device, the first filler are provided with the housing of the first sweat cooling cooling water installations from top to bottom
With the first water tank, be provided with the housing of the first sweat cooling cooling water installations between the first filler and the first water tank with outward
The first air inlet that air inlet is communicated, is set on the housing of the first sweat cooling cooling water installations above the first water-distributing device
There is the first air outlet communicated with the air inlet of blower fan, the second sweat cooling cooling water installations include that machine unit shell and surface-type are changed
Hot device, is provided with the second water-distributing device, the second filler and the second water tank from top to bottom in machine unit shell, in the second filler and
The second air inlet communicated with external air inlet port, the machine above the second water-distributing device are provided with machine unit shell between two water tanks
Group housing on be provided with the second air outlet communicated with the air inlet of blower fan, be provided with surface-type heat exchanger cold water channel and with
The cold air duct that second air inlet is communicated, surface-type heat exchanger is arranged on the second air inlet, mechanical refrigeration cooling water installations bag
Evaporator and condenser are included, refrigerant passage and cold water channel are provided with evaporator, refrigerant passage is provided with condenser
And cooling-water duct, the refrigerant passage of evaporator is connected with the refrigerant passage of condenser, the cold water channel outlet of evaporator with
The cold water inlet of first user is connected by the first pipeline, the cold water delivery port of first user and the cold water channel of evaporator
Import is connected by the second pipeline, has the 3rd pipeline in the cooling-water duct inlet communication of condenser, in the cooling of condenser
Aquaporin outlet has the 4th pipeline, and the 4th pipeline is connected with the water inlet of the first water-distributing device, and the first sweat cooling is supplied
First water outlet of water tank of water-cooling device is connected with the cold water channel import of surface-type heat exchanger by the 5th pipeline, the 5th pipe
Line is connected with the 3rd pipeline, and the cold water channel outlet that surface-type heat exchanger is set and the water inlet of the first water-distributing device are by the
Six pipelines are connected, and the second water outlet of water tank of the second sweat cooling cooling water installations passes through with the cold water inlet of second user
7th pipeline is connected, and the cold-water return mouthful of second user is connected with the water inlet of the second water-distributing device by the 8th pipeline,
The first water pump is serially connected with the first pipeline, the 3rd water pump is serially connected with the 5th pipeline, second is serially connected with the 7th pipeline
Water pump;
Or, also including first user and second user, first user and second user be respectively provided with cold water inlet and
Cold-water return mouthful, the first sweat cooling cooling water installations include the first housing and first surface formula heat exchanger, in first shell body
The first water-distributing device, the first filler and the first water tank are provided with from top to bottom, between the first filler and the first water tank first
The first air inlet communicated with external air inlet port is provided with housing, be provided with the first housing above the first water-distributing device with
The first air outlet that the air inlet of blower fan is communicated, be provided with first surface formula heat exchanger the first cold water channel and with the first air intake
The first cold air duct that mouth is communicated, first surface formula heat exchanger is arranged on the first air inlet, the second sweat cooling cooling water dress
Put including the second housing and second surface formula heat exchanger, be provided with the second water-distributing device, second from top to bottom in second shell body
Filler and the second water tank, second communicated with external air inlet port is provided with the second housing between the second filler and the second water tank
Air inlet, is provided with the second air outlet communicated with the air inlet of blower fan on the second housing above the second water-distributing device, the
The second cold water channel and the second cold air duct communicated with the second air inlet, second surface formula are provided with two surface-type heat exchangers
Heat exchanger is arranged on the second air inlet, and mechanical refrigeration cooling water installations include evaporator and condenser, are set in evaporator
Have refrigerant passage and cold water channel, be provided with refrigerant passage and cooling-water duct in condenser, the refrigerant passage of evaporator with
The refrigerant passage of condenser is connected, and cold water channel outlet and the cold water inlet of first user of evaporator pass through the first pipeline
It is connected, the cold water delivery port of first user is connected with the cold water channel import of evaporator by the second pipeline, in condenser
Cooling-water duct inlet communication have the 3rd pipeline, the 3rd pipeline exports phase with the second cold water channel of second surface formula heat exchanger
Connection, has the 4th pipeline in the cooling-water duct outlet of condenser, the water inlet phase of the 4th pipeline and the first water-distributing device
Connection, the first water outlet of water tank is connected with the cold water channel import of second surface formula heat exchanger by the 5th pipeline, the second water
Case delivery port is connected with the cold water inlet of second user by the 6th pipeline, cold-water return mouthful and first table of second user
The cold water channel import of face formula heat exchanger is connected by the 7th pipeline, the cold water channel of first surface formula heat exchanger outlet and the
The water inlet of two water-distributing devices is connected by the 8th pipeline, and the first water pump is serially connected with the first pipeline, on the 5th pipeline
The 3rd water pump is serially connected with, the second water pump is serially connected with the 6th pipeline;
Or, also including first user and second user, first user and second user be respectively provided with cold water inlet and
Cold-water return mouthful, the first sweat cooling cooling water installations include the first housing and first surface formula heat exchanger, in first shell body
The first water-distributing device, the first filler and the first water tank are provided with from top to bottom, between the first filler and the first water tank first
The first air inlet communicated with external air inlet port is provided with housing, be provided with the first housing above the first water-distributing device with
The first air outlet that the air inlet of blower fan is communicated, be provided with first surface formula heat exchanger the first cold water channel and with the first air intake
The first cold air duct that mouth is communicated, first surface formula heat exchanger is arranged on the first air inlet, the second sweat cooling cooling water dress
Put including the second housing and second surface formula heat exchanger, be provided with the second water-distributing device, second from top to bottom in second shell body
Filler and the second water tank, second communicated with external air inlet port is provided with the second housing between the second filler and the second water tank
Air inlet, is provided with the second air outlet communicated with the air inlet of blower fan on the second housing above the second water-distributing device, the
The second cold water channel and the second cold air duct communicated with the second air inlet, second surface formula are provided with two surface-type heat exchangers
Heat exchanger is arranged on the second air inlet, and mechanical refrigeration cooling water installations include evaporator and condenser, are set in evaporator
Have refrigerant passage and cold water channel, be provided with refrigerant passage and cooling-water duct in condenser, the refrigerant passage of evaporator with
The refrigerant passage of condenser is connected, and cold water channel outlet and the cold water inlet of first user of evaporator pass through the first pipeline
It is connected, the cold water delivery port of first user is connected with the cold water channel import of evaporator by the second pipeline, in condenser
Cooling-water duct inlet communication have the 3rd pipeline, the 3rd pipeline is connected with the cold-water return mouthful of second user, in condenser
Cooling-water duct outlet have the 4th pipeline, the 4th pipeline is connected with the water inlet of the second water-distributing device, the first water tank
Delivery port is connected with the cold water channel import of second surface formula heat exchanger by the 5th pipeline, second surface formula heat exchanger it is cold
Aquaporin outlet is connected with the cold water channel import of first surface formula heat exchanger by the 6th pipeline, first surface formula heat exchanger
Cold water channel outlet be connected by the 7th pipeline with the water inlet of the first water-distributing device, the second water outlet of water tank and second use
The cold water inlet at family is connected by the 8th pipeline, and the first water pump is serially connected with the first pipeline, is concatenated on the 5th pipeline
There is the 3rd water pump, the second water pump is serially connected with the 8th pipeline;
Or, also including first user and second user, first user and second user be respectively provided with cold water inlet and
Cold-water return mouthful, the first sweat cooling cooling water installations include the first housing and first surface formula heat exchanger, in first shell body
The first water-distributing device, the first filler and the first water tank are provided with from top to bottom, between the first filler and the first water tank first
The first air inlet communicated with external air inlet port is provided with housing, be provided with the first housing above the first water-distributing device with
The first air outlet that the air inlet of blower fan is communicated, be provided with first surface formula heat exchanger the first cold water channel and with the first air intake
The first cold air duct that mouth is communicated, first surface formula heat exchanger is arranged on the first air inlet, the second sweat cooling cooling water dress
Put including the second housing and second surface formula heat exchanger, be provided with the second water-distributing device, second from top to bottom in second shell body
Filler and the second water tank, second communicated with external air inlet port is provided with the second housing between the second filler and the second water tank
Air inlet, is provided with the second air outlet communicated with the air inlet of blower fan on the second housing above the second water-distributing device, the
The second cold water channel and the second cold air duct communicated with the second air inlet, second surface formula are provided with two surface-type heat exchangers
Heat exchanger is arranged on the second air inlet, and mechanical refrigeration cooling water installations include evaporator and condenser, are set in evaporator
Have refrigerant passage and cold water channel, be provided with refrigerant passage and cooling-water duct in condenser, the refrigerant passage of evaporator with
The refrigerant passage of condenser is connected, and cold water channel outlet and the cold water inlet of first user of evaporator pass through the first pipeline
It is connected, the cold water delivery port of first user is connected with the cold water channel import of evaporator by the second pipeline, in condenser
Cooling-water duct inlet communication have the 3rd pipeline, the 3rd pipeline is connected with the cold-water return mouthful of second user, in condenser
Cooling-water duct outlet have the 4th pipeline, the 4th pipeline is equal with the water inlet of the first water-distributing device and the second water-distributing device
It is connected, the first water outlet of water tank is connected with the cold water channel import of second surface formula heat exchanger by the 5th pipeline, second
The cold water channel outlet of surface-type heat exchanger is connected with the cold water channel import of first surface formula heat exchanger by the 6th pipeline,
The cold water channel outlet of first surface formula heat exchanger is with the water inlet of the first water-distributing device and the second water-distributing device by the 7th pipe
Line is connected, and the second water outlet of water tank is connected with the 5th pipeline by the 8th pipeline, the first water outlet of water tank and second user
Cold water inlet be connected by the 9th pipeline, the second water outlet of water tank is connected with the 9th pipeline by the tenth pipeline,
The first water pump is serially connected with first pipeline, the between the cold water channel import of the 8th pipeline and second surface formula heat exchanger the 5th
The 3rd water pump is serially connected with pipeline, is serially connected with the 9th pipeline between the tenth pipeline and the cold water inlet of second user
Two water pumps;
Or, also including plate type heat exchanger, first user and second user, first user and second user are respectively provided with cold
In the housing of water water inlet and cold-water return mouthful, the first sweat cooling cooling water installations and the second sweat cooling cooling water installations certainly
Water-distributing device, filler and water tank above are arranged with, are provided with the housing between filler and water tank and are communicated with external air inlet port
Air inlet, the air outlet communicated with the air inlet of blower fan, mechanical refrigeration cooling are provided with the housing above water-distributing device
Water installations include evaporator and condenser, and refrigerant passage and cold water channel are provided with evaporator, are provided with condenser
Refrigerant passage and cooling-water duct, the refrigerant passage of evaporator are connected with the refrigerant passage of condenser, and the cold water of evaporator leads to
Road outlet is connected with the cold water inlet of first user by the first pipeline, cold water delivery port and the evaporator of first user
Cold water channel import is connected by the second pipeline, has the 3rd pipeline, the 3rd pipe in the cooling-water duct inlet communication of condenser
Line is connected with the outlet of an aquaporin of plate type heat exchanger, has the 4th pipe in the cooling-water duct outlet of condenser
Line, the 4th pipeline is connected with the water-distributing device of the first sweat cooling cooling water installations and the second sweat cooling cooling water installations
Logical, the water outlet of water tank of the first sweat cooling cooling water installations is with an import for aquaporin of plate type heat exchanger by the 5th pipe
Line is connected, and the water outlet of water tank of the second sweat cooling cooling water installations is connected with the 5th pipeline by the 6th pipeline,
The first water pump is serially connected with one pipeline, the 5th pipeline between the 6th pipeline and an import for aquaporin of plate type heat exchanger
On be serially connected with the second water pump, the cold-water return mouthful of second user is connected with the secondary water passageway inlet of plate type heat exchanger, second
The cold water inlet of user is connected with the secondary water channel outlet of plate type heat exchanger;
Or, also including plate type heat exchanger, first user and second user, first user and second user are respectively provided with cold
Water water inlet and cold-water return mouthful, are provided with the first water distribution dress from top to bottom in the housing of the first sweat cooling cooling water installations
Put, the first filler and the first water tank, the housing of the first sweat cooling cooling water installations between the first filler and the first water tank
On be provided with the first air inlet communicated with external air inlet port, the first sweat cooling cooling water installations above the first water-distributing device
Housing on be provided with the first air outlet communicated with the air inlet of blower fan, the second sweat cooling cooling water installations include unit shell
Body and surface-type heat exchanger, are provided with the second water-distributing device, the second filler and the second water tank from top to bottom in machine unit shell,
The second air inlet communicated with external air inlet port is provided with machine unit shell between second filler and the second water tank, in the second water distribution
The second air outlet communicated with the air inlet of blower fan is provided with machine unit shell above device, is provided with surface-type heat exchanger
Cold water channel and the cold air duct communicated with the second air inlet, surface-type heat exchanger are arranged on the second air inlet, mechanical refrigeration
Cooling water installations include evaporator and condenser, and refrigerant passage and cold water channel are provided with evaporator, are set in condenser
Be equipped with refrigerant passage and cooling-water duct, the refrigerant passage of evaporator is connected with the refrigerant passage of condenser, evaporator it is cold
Aquaporin outlet is connected with the cold water inlet of first user by the first pipeline, cold water delivery port and the evaporation of first user
The cold water channel import of device is connected by the second pipeline, has the 3rd pipeline in the cooling-water duct inlet communication of condenser, the
Three pipelines are connected with the cold water channel outlet of surface-type heat exchanger, have the 4th pipe in the cooling-water duct outlet of condenser
Line, the 4th pipeline is connected with the water inlet of the first water-distributing device, the first water tank water outlet of the first sweat cooling cooling water installations
Mouth is connected with the cold water channel import of surface-type heat exchanger by the 5th pipeline, and the second of the second sweat cooling cooling water installations
Water outlet of water tank is connected with a water passageway inlet of plate type heat exchanger by the 6th pipeline, and a water of plate type heat exchanger leads to
Road outlet is connected with the water inlet of the second water-distributing device by the 7th pipeline, and the first water pump is serially connected with the first pipeline,
The 3rd water pump is serially connected with 5th pipeline, the second water pump, the cold-water return mouthful and plate of second user are serially connected with the 6th pipeline
The secondary water passageway inlet of formula heat exchanger is connected, and the cold water inlet of second user goes out with the secondary aquaporin of plate type heat exchanger
Mouth is connected;
Or, also including plate type heat exchanger, first user and second user, first user and second user are respectively provided with cold
Water water inlet and cold-water return mouthful, are provided with the first water distribution dress from top to bottom in the housing of the first sweat cooling cooling water installations
Put, the first filler and the first water tank, the housing of the first sweat cooling cooling water installations between the first filler and the first water tank
On be provided with the first air inlet communicated with external air inlet port, the first sweat cooling cooling water installations above the first water-distributing device
Housing on be provided with the first air outlet communicated with the air inlet of blower fan, the second sweat cooling cooling water installations include unit shell
Body and surface-type heat exchanger, are provided with the second water-distributing device, the second filler and the second water tank from top to bottom in machine unit shell,
The second air inlet communicated with external air inlet port is provided with machine unit shell between second filler and the second water tank, in the second water distribution
The second air outlet communicated with the air inlet of blower fan is provided with machine unit shell above device, is provided with surface-type heat exchanger
Cold water channel and the cold air duct communicated with the second air inlet, surface-type heat exchanger are arranged on the second air inlet, mechanical refrigeration
Cooling water installations include evaporator and condenser, and refrigerant passage and cold water channel are provided with evaporator, are set in condenser
Be equipped with refrigerant passage and cooling-water duct, the refrigerant passage of evaporator is connected with the refrigerant passage of condenser, evaporator it is cold
Aquaporin outlet is connected with the cold water inlet of first user by the first pipeline, cold water delivery port and the evaporation of first user
The cold water channel import of device is connected by the second pipeline, has the 3rd pipeline in the cooling-water duct inlet communication of condenser,
The cooling-water duct outlet of condenser has the 4th pipeline, and the 4th pipeline is connected with the water inlet of the first water-distributing device, the
First water outlet of water tank of one sweat cooling cooling water installations passes through the 5th pipeline with the cold water channel import of surface-type heat exchanger
It is connected, the 5th pipeline is connected with the 3rd pipeline, cold water channel outlet and the first water-distributing device that surface-type heat exchanger is set
Water inlet be connected by the 6th pipeline, second water outlet of water tank and plate type heat exchanger of the second sweat cooling cooling water installations
A water passageway inlet be connected by the 7th pipeline, the outlet of an aquaporin of plate type heat exchanger and the second water-distributing device
Water inlet is connected by the 8th pipeline, and the first water pump is serially connected with the first pipeline, and the 3rd water is serially connected with the 5th pipeline
Pump, is serially connected with the second water pump on the 7th pipeline, and the cold-water return mouthful of second user is entered with the secondary aquaporin of plate type heat exchanger
Mouth is connected, and the cold water inlet of second user is connected with the secondary water channel outlet of plate type heat exchanger;
Or, also including plate type heat exchanger, first user and second user, first user and second user are respectively provided with cold
Water water inlet and cold-water return mouthful, the first sweat cooling cooling water installations include the first housing and first surface formula heat exchanger,
The first water-distributing device, the first filler and the first water tank are provided with from top to bottom in first shell body, in the first filler and the first water tank
Between the first housing on be provided with the first air inlet communicated with external air inlet port, the first housing above the first water-distributing device
On be provided with the first air outlet communicated with the air inlet of blower fan, be provided with first surface formula heat exchanger the first cold water channel and
The first cold air duct communicated with the first air inlet, first surface formula heat exchanger is arranged on the first air inlet, the second evaporation system
Cold cooling water installations include the second housing and second surface formula heat exchanger, are provided with the second water distribution from top to bottom in second shell body
Device, the second filler and the second water tank, are provided with and external air inlet port on the second housing between the second filler and the second water tank
The second air inlet for communicating, second communicated with the air inlet of blower fan is provided with the second housing above the second water-distributing device
Air outlet, is provided with the second cold water channel and the second cold air duct communicated with the second air inlet in second surface formula heat exchanger,
Second surface formula heat exchanger is arranged on the second air inlet, and mechanical refrigeration cooling water installations include evaporator and condenser, is steaming
Refrigerant passage and cold water channel are provided with hair device, refrigerant passage and cooling-water duct are provided with condenser, evaporator
Refrigerant passage is connected with the refrigerant passage of condenser, and cold water channel outlet and the cold water inlet of first user of evaporator lead to
Cross the first pipeline to be connected, the cold water channel outlet of evaporator is connected with the cold water inlet of first user by the first pipeline
Logical, the cold water delivery port of first user is connected with the cold water channel import of evaporator by the second pipeline, in the cold of condenser
But water passageway inlet is communicated with the 3rd pipeline, and the 3rd pipeline is connected with the second cold water channel outlet of second surface formula heat exchanger
It is logical, there is the 4th pipeline in the cooling-water duct outlet of condenser, the 4th pipeline is connected with the water inlet of the first water-distributing device
Logical, the first water outlet of water tank is connected with the cold water channel import of second surface formula heat exchanger by the 5th pipeline, the second water tank
Delivery port is connected with a water passageway inlet of plate type heat exchanger by the 6th pipeline, and an aquaporin of plate type heat exchanger goes out
Mouth is connected with the cold water channel import of first surface formula heat exchanger by the 7th pipeline, and the cold water of first surface formula heat exchanger leads to
Road outlet is connected with the water inlet of the second water-distributing device by the 8th pipeline, and the first water pump is serially connected with the first pipeline,
The 3rd water pump is serially connected with 5th pipeline, the second water pump, the cold-water return mouthful and plate of second user are serially connected with the 6th pipeline
The secondary water passageway inlet of formula heat exchanger is connected, and the cold water inlet of second user goes out with the secondary aquaporin of plate type heat exchanger
Mouth is connected;
Or, also including plate type heat exchanger, first user and second user, first user and second user are respectively provided with cold
Water water inlet and cold-water return mouthful, the first sweat cooling cooling water installations include the first housing and first surface formula heat exchanger,
The first water-distributing device, the first filler and the first water tank are provided with from top to bottom in first shell body, in the first filler and the first water tank
Between the first housing on be provided with the first air inlet communicated with external air inlet port, the first housing above the first water-distributing device
On be provided with the first air outlet communicated with the air inlet of blower fan, be provided with first surface formula heat exchanger the first cold water channel and
The first cold air duct communicated with the first air inlet, first surface formula heat exchanger is arranged on the first air inlet, the second evaporation system
Cold cooling water installations include the second housing and second surface formula heat exchanger, are provided with the second water distribution from top to bottom in second shell body
Device, the second filler and the second water tank, are provided with and external air inlet port on the second housing between the second filler and the second water tank
The second air inlet for communicating, second communicated with the air inlet of blower fan is provided with the second housing above the second water-distributing device
Air outlet, is provided with the second cold water channel and the second cold air duct communicated with the second air inlet in second surface formula heat exchanger,
Second surface formula heat exchanger is arranged on the second air inlet, and mechanical refrigeration cooling water installations include evaporator and condenser, is steaming
Refrigerant passage and cold water channel are provided with hair device, refrigerant passage and cooling-water duct are provided with condenser, evaporator
Refrigerant passage is connected with the refrigerant passage of condenser, and cold water channel outlet and the cold water inlet of first user of evaporator lead to
Cross the first pipeline to be connected, the cold water delivery port of first user is connected with the cold water channel import of evaporator by the second pipeline
It is logical, there is the 3rd pipeline in the cooling-water duct inlet communication of condenser, the 3rd pipeline goes out with an aquaporin of plate type heat exchanger
Mouth is connected, and has the 4th pipeline, the water inlet of the 4th pipeline and the second water-distributing device in the cooling-water duct outlet of condenser
Mouth is connected, and the first water outlet of water tank is connected with the cold water channel import of second surface formula heat exchanger by the 5th pipeline, the
The cold water channel outlet of two surface-type heat exchangers is connected with the cold water channel import of first surface formula heat exchanger by the 6th pipeline
Logical, the cold water channel outlet of first surface formula heat exchanger is connected with the water inlet of the first water-distributing device by the 7th pipeline, the
Two water outlet of water tank are connected with a water passageway inlet of plate type heat exchanger by the 8th pipeline, are serially connected with the first pipeline
First water pump, the 3rd water pump is serially connected with the 5th pipeline, and the second water pump, the cold water of second user are serially connected with the 8th pipeline
Water return outlet is connected with the secondary water passageway inlet of plate type heat exchanger, the cold water inlet of second user and the two of plate type heat exchanger
Secondary aquaporin outlet is connected;
Or, also including plate type heat exchanger, first user and second user, first user and second user are respectively provided with cold
Water water inlet and cold-water return mouthful, the first sweat cooling cooling water installations include the first housing and first surface formula heat exchanger,
The first water-distributing device, the first filler and the first water tank are provided with from top to bottom in first shell body, in the first filler and the first water tank
Between the first housing on be provided with the first air inlet communicated with external air inlet port, the first housing above the first water-distributing device
On be provided with the first air outlet communicated with the air inlet of blower fan, be provided with first surface formula heat exchanger the first cold water channel and
The first cold air duct communicated with the first air inlet, first surface formula heat exchanger is arranged on the first air inlet, the second evaporation system
Cold cooling water installations include the second housing and second surface formula heat exchanger, are provided with the second water distribution from top to bottom in second shell body
Device, the second filler and the second water tank, are provided with and external air inlet port on the second housing between the second filler and the second water tank
The second air inlet for communicating, second communicated with the air inlet of blower fan is provided with the second housing above the second water-distributing device
Air outlet, is provided with the second cold water channel and the second cold air duct communicated with the second air inlet in second surface formula heat exchanger,
Second surface formula heat exchanger is arranged on the second air inlet, and mechanical refrigeration cooling water installations include evaporator and condenser, is steaming
Refrigerant passage and cold water channel are provided with hair device, refrigerant passage and cooling-water duct are provided with condenser, evaporator
Refrigerant passage is connected with the refrigerant passage of condenser, and cold water channel outlet and the cold water inlet of first user of evaporator lead to
Cross the first pipeline to be connected, the cold water delivery port of first user is connected with the cold water channel import of evaporator by the second pipeline
It is logical, there is the 3rd pipeline in the cooling-water duct inlet communication of condenser, the 3rd pipeline goes out with an aquaporin of plate type heat exchanger
Mouth is connected, and has the 4th pipeline, the 4th pipeline and the first water-distributing device and second in the cooling-water duct outlet of condenser
The water inlet of water-distributing device is connected, and the cold water channel import of the first water outlet of water tank and second surface formula heat exchanger is by the
Five pipelines are connected, and cold water channel outlet and the cold water channel import of first surface formula heat exchanger of second surface formula heat exchanger are led to
The 6th pipeline is crossed to be connected, the outlet of the cold water channel of first surface formula heat exchanger and the first water-distributing device and the second water-distributing device
Water inlet is connected by the 7th pipeline, and the second water outlet of water tank is connected with the 5th pipeline by the 8th pipeline, the first water tank
Delivery port is connected with a water passageway inlet of plate type heat exchanger by the 9th pipeline, the first water outlet of water tank and the 9th pipeline
It is connected by the tenth pipeline, the first water pump is serially connected with the first pipeline, in the 8th pipeline and second surface formula heat exchanger
The 3rd water pump is serially connected with the 5th pipeline between cold water channel import, in the tenth pipeline and an aquaporin of plate type heat exchanger
The second water pump is serially connected with the 9th pipeline between import, the cold-water return mouthful of second user is led to the secondary water of plate type heat exchanger
Road import is connected, and the cold water inlet of second user is connected with the secondary water channel outlet of plate type heat exchanger.
4. sweat cooling according to claim 3 is combined dual temperature handpiece Water Chilling Units, it is characterised in that mechanical refrigeration cooling water is filled
The quantity put be two or more, more than two mechanical refrigeration cooling water installations be arranged on the first sweat cooling cooling water installations,
Between second sweat cooling cooling water installations, first cooling-water duct import of the condenser of mechanical refrigeration cooling water installations with
3rd pipeline is connected, cooling-water duct outlet and the 4th pipeline phase of the condenser of last mechanical refrigeration cooling water installations
Connection, the cooling-water duct of the condenser of all mechanical refrigeration cooling water installations is serially connected, all mechanical refrigeration cooling water dresses
The outlet of the cold water channel of the evaporator put is connected with the cold water inlet of first user by the first pipeline, all machinery systems
The import of the cold water channel of the evaporator of cold cooling water installations is connected with the cold-water return mouthful of first user by the second pipeline,
The pipeline in the cold water channel exit of the evaporator of all mechanical refrigeration cooling water installations first user cold water inlet simultaneously
Connection is set, and the pipeline at the cold water channel import of the evaporator of all mechanical refrigeration cooling water installations is returned in the cold water of first user
The mouth of a river is arranged in parallel.
5. the compound dual temperature handpiece Water Chilling Units of sweat cooling according to claim 1 or 2 or 4, it is characterised in that the quantity of blower fan
It is at least one.
6. sweat cooling according to claim 3 is combined dual temperature handpiece Water Chilling Units, it is characterised in that the quantity of blower fan is at least
One.
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CN201621427318.9U CN206281129U (en) | 2016-12-23 | 2016-12-23 | The compound dual temperature handpiece Water Chilling Units of sweat cooling |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107477748A (en) * | 2017-10-05 | 2017-12-15 | 祝大顺 | The fresh air cold water all-in-one of sweat cooling and mechanical refrigeration cooperation |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107477748A (en) * | 2017-10-05 | 2017-12-15 | 祝大顺 | The fresh air cold water all-in-one of sweat cooling and mechanical refrigeration cooperation |
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